MP200 pl ok folder-srodek2.qxd 2012-10-08 14:59 Strona 2

MULTIPURPOSE TECHNOLOGY MultiPlate MP200 BURIED FLEXIBLE STEEL STRUCTURES MP200 pl ok_folder-srodek2.qxd 2012-10-08 14:59 Strona 2...

36 downloads 462 Views 6MB Size
MP200 pl ok_folder-srodek2.qxd 2012-10-08 14:59 Strona 2

BURIED FLEXIBLE STEEL STRUCTURES

MultiPlate MP200

MULTIPURPOSE TECHNOLOGY

Table of contents 1. Introduction

p. 3

2. Application

p. 5

3. Production

p. 6

3.1. Production of corrugated plates

p. 6

3.2. Corrosion protection

p. 8

3.3. Bolts, nuts, anchor, bolts, base channels

p. 9

4. Design / construction

p. 11

4.2. Design algorithm

p. 11

4.3. Dimensioning

p. 12

4.4. Selection of structure cross section

p. 12

4.5. Cover depth

p. 12

4.6. Geometry of a structure in longitudinal direction

p. 13

4.7. Skew angles

p. 14

4.8. Reinforcing ribs

p. 14

4.9. Multiple installation

p. 15

4.10. Tolerances

p. 15

4.11. Protection against construction of rainwater

p. 15

4.12. Foundation and backfilling

p. 16

4.13. End treatment (inlet/outlet)

p. 17

4.14. Concrete collar

p. 17

4.15. Fittings

p. 18

4.16. Durability

p. 19

5. Installation and construction procedures

p. 20

5.1. Delivery

p. 20

5.2. Assembly

p. 21

5.3. Torque of bolts

p. 21

5.4. Assembly equipment

p. 22

5.5. Assembly time

p. 22

5.6. Deformaction during backfilling

p. 23

5.7. Shape control

p. 23

6. Relining

p. 24

7. Tests

p. 25

8. Profiles

p. 26

9. Case studies

p. 44

Karpacz, Parkowa street

p. 44

Świdnica, Brzozowa avenue

p. 45

Dolomite Mine in Radkowice and Basalt Mine in Sulikowo

p. 46

Łagów - tanks to build sewage treatment plants

p. 47

Denmark

p. 48

About company

2.

p. 11

4.1. Scope of design

p. 49

1. Introduction

The components of galvanized steel structures are used for the construction of civil engineering for over 100 years.The first application of this type of construction has taken place in North America and Russia, where the idea of using them in road and rail construction was born. Today, buried flexible steel structures is widely used in construction around the world. Structures of this type due to the nature of their work, are often referred to flexible structures.

Soil-stell interaction means that a flexible steel structures act with the surrounding soil fill to support the loads. They are cheap, easy and quick to build. The average installation time with a few people brigade takes a few days. Construction of MultiPlate MP200 are used in Poland since 1997, and the company ViaCon Polska Sp. z o.o. producing them since 2005.

MultiPlate MP200 has the CE Certiÿcate of Factory Production Control No. 1023-CPD-0447 F.

www.viacon.pl

3.

Typical sequence for construction of MultiPlate structure consits of: - foundations - delivery - assembly - backfilling - finishing work MultiPlate structures have many advantages such as: - simply design due to fewer details, drawings and calculations database for standard application - easy and fast assebly - possibility to assebly in temperature below zero - possibility to assebly structures without traffic stop - possibility to assebly in total or partial prefabrication of the structures - due to lightweight, corrugated steel plates can be delivered easily and economically to remote locations - reduction in total time and cost of building the structures

4.

2. Application MultiPlate MP200 structures are used for road and railways and industrial applications such as: - culverts - bridges - overpasses - tunnels - underpasses - ecological crossing - hangars - shelters - warehouses - belt conveyor housings - pipes and heat-pipes cover - sewage and liquid tanks - storage bin

www.viacon.pl

5.

3. Production 3.1. Production of corrugated plates

The process of MultiPlate MP200 production consists of mechanical forming of steel flat plates to the shape of corrugated curved plates which are later hot-dip galvanized. Corrugated plates can be epoxy painted on request. Whole process is located indoor.

Certificate ISO 9001 i 14001

ISO Certificates

6.

Fig.1 Cross section of MultiPlate MP200 plate

Fig. 2 Geometry of MultiPlate MP200 plate

Standard length of plate is n x s, where s=235 mm, and n= 4 ÷ 10. Standard width of plate is 1,2 m (m=6). Other plate's width are available upon request (Fig. 2.). Tab. 1 Section properties of MultiPlate MP200 plate Moment of inertia [mm4/mm]

Section modulus [mm3/mm]

Plate thickness [mm]

Yield stress [MPa]

Area [mm2/mm]

3,00

235 / 355

3,55

1 356,36

46,77

4,00

235 / 355

4,74

1 813,80

61,49

5,00

235 / 355

5,93

2 316,15

77,20

6,00

235 / 355

7,11

2 787,57

91,40

7,00

235

8,29

3 213,20

103,65

8,00

235

9,37

3 616,77

114,82

Other plate configurations are available upon request. Selection of plate thickness depends on structure shape, span, depth of cover and live load. Please take the opportunity to consult with our Technical Department for advice and assistance on your project.

www.viacon.pl

7.

3.2. Corrosion protection Corrosion protection of MultiPlate MP200 structures is made in a production plant and consists of: - hot-dip galvanizing of steel plates and additional fitting elements

- epoxy painting galvanized plates (if requested additionally)

Hot-dip galvanizing is the most durable method of corrosion protection. Galvanizing coating is metallurgically-bonded to the steel surface, providing extended service life. In order to extend durability of MultiPlate structures, especially in an

Tab. 2 Zinc layer thickness Characteristics

Minimal average zinc coating thickness [μm]

≥6 mm ≥3 mm up to <6 mm ≥1,5 mm up to <3mm

70 55 45

85 70 55

Bolts, nuts, anchor bolts

40

50

aggresive environment, there is a possibility to aplly an additional corrosion protection by applying epoxy paint.

Requirements acc. to PN-EN ISO 1461 Minimal local zinc coating thinckness [μm]

Steel plate thinckness:

MultiPlate structures are protected by hot galvanizing as a standard, with zink coating layer according to PN-EN ISO 1461 (table 2). Other thickness of zinc layer is possible on request. . .

8.

Coatings applied by immersion, including hot-dip galvanizing, are the most durable protection of steel surfaces, mainly due to produce a lasting connection of dip zinc coating with the steel surface. .

The protection of structures both by hot-dip galvanizing and epoxy paint creates ViaCoat system conformed to PN-EN ISO 12944-5. It is used epoxy and polyurethane paint, but surfaces exposed to UV rays should be painted with epoxy paint - polyurethane. It is recommended to use a coating thickness of 80÷200 µm. Coating thickness can be increased, if required by the assumed structures durability.

Paint coat thickness is controlled by PN-EN ISO 2808. Minimum adhesion of the epoxy paint to the zinc base measured by pull - off method should not be less than 4 MPa, and an adjacent test is conducted according to the norm PN-EN ISO 4624.

In order to obtain the right adhesion galvanized plates are sweep blast prior to application of paint. In order to obtain the proper protection effect, paint coatings are applied in special conditions. Keeping a technological regime is crucial for successful performance of the protection system.

Depending on the requirements of a paint coating protection it is usually painted: - the entire surface of the interior and / or exterior - on inlet and outlet structures from the exterior side - to the great height of water level on the internal surface of the construction - the combination of the above During transportation and installation of coating, the construction may be damaged. Repairing this type of damage is fixed at site when assembled.

3.3. Bolts, nuts, anchor bolts Tab.3 Parameters of additional elements Type/dimensions Bolts Nuts Anchor bolts

M20 class 8.8

Length [mm]

Norm

32, 37, 45, 50, 63, 70

PN-EN ISO 898-1

M20

-

PN-EN ISO 898-2

Ø 20 mm

225, 365

PN-EN 10025-2

Corrugated steel plates are joined by bolts M20 class 8.8. The lengths of the bolts are related to thickness of connected plates and type of connection. There are two type of bolt heads (Fig. 3) – oval-shaped and cone-shaped at dimensions: 32 mm, 37 mm, 45 mm, 50 mm, 63 mm, 70 mm. Bolts diameter of 20 mm and nuts correstond to the requirements norm of PN-EN ISO 898-1 i PN-EN 20898-2.

www.viacon.pl

9.

Anchor bolts with a diameter of 20 mm and length of 225 mm or 365 mm made of steel corresponding to the requirements of PN EN 10025.

All above mentioned elements are delivered together with corrugated plates as a complete structure.

a)

b)

Fig. 3. The shape of bolt head: a) oval, b) cone

Fig. 4. Anchor bolts

10.

Fig. 5. Connection of the construction plates

4. Design 4.1. Scope of design Design process with using MultiPlate MP200 structure includes the following: - design of MultiPlate MP200 structure (including assembly and backfilling procedure) - design of engineered backfill - design of foundation - design of in and outlet fittings elements

MultiPlate MP200 structures are designed for all road and railway live load classes according to norm Eurocode EN 1991-2 or according to nationals standards.

4.2. Design algorithm The following alogorithm should be used when designing of MultiPlate MP200 structures: - specify the function of structure (culvert, viaduct, ecological crossing) - define the shape (preserved gauge dimensions including tolerances) - determine water flow and light (for culverts and bridges) - choose the type of fundation (direct, indirect, the type of material) - specify the cover depth - determine type of dead and live load - specify the engineered backfill material and its installation procedure - make static calculations as well as specify deformations during construction - select the corrosion protection depending on required durability - choose the assembly procedure (estimate labor and cost of assembly) - design of inlet and outlet

www.viacon.pl

11.

4.3. Dimensioning MultiPlate MP200 structures are dimentioned using Swedish design method, developed by prof.Sunquist and prof. Pettersson. They can also be designed with the use of the structures, e.g. CHBDC. In complex cases finite element method (FEM) can be used.

4.4. Selection of structure cross section In order to select a typical shape of a structure, please use tables provides on pages 26-43. These tables includes standard shapes. Other shapes are available upon request. A profile of a structure should fit to clearance box. Allow for tolerances of structure dimensions.

Acceptable tolerances are given in chapter 4.10. .

4.5. Cover depth Definition of the cover depth for road structures: Vertical distance between top of a steel structure main barrel and top of the pavement including the pavement layers. .

Definition of the cover depth for rail structures: Vertical distance between top of a steel structure main barrel and bottom of railway sleeper. . Tab. 4. Cover depth Type of the structure Structures under roads

Model

H=max

(Si/8)+0,2 [m] Si/6 [m] 0,6 [m]

Structures under railway lines

H=max

Si/4 0,6 [m]

Si – span of the structure [m].

Lower cover depth is acceptable when appropriate static calculations are conducted. Maximum depth of a cover is always designed individually. For high cover depth load reduction techniques are available.

12.

4.6. Geometry of a structure in longitudinal direction

Bottom length of MultiPlate MP200 structures should conform to the following formula:

Ld=40+n*1200+40 [mm] where n – number of full rings alongside length

Top length of a structure is determined individually (in and outlets). Ends of MultiPlate MP200 structures can be squared or beveled to match the embankment slope (Fig. 6).

For structure curved in plane use bends to align to designed curvature.

Rys. 6. End finishes for MultiPlate MP200 structures

Depending on whether the structure is completed straight or slanted in accordance with the inclination of the slope, it is different to finish inlet and outlet of the construction. If the structure is ended straight it is necessary to build headwalls constantly connected with the structure. For the construction beveled in accordance with the inclination of the slope , it is necessary to finish the slope by pavement, sowing grass, encased of gabions.

www.viacon.pl

13.

4.7. Skew angles

Fig. 7. Skewed structure. Minimum permissible angle for skewed ends is 550. Concrete collars are used for large skews. Steel meshes attached to MultiPlate MP200 structure can be also used for skewed areas. Please contact Technical Department for advice.

4.8. Multiple installation For multiple structure installation, the smallest clear spacing between adjacent

LI

structures should be sufficient for the placement and compaction of soil (Fig.8). LI

The minimum spacing requirement depends upon the shape and size of structures. When the required distance can not be achieved, space between structures should be filled with C12/15 concrete or cement stabilized soil to the level where the

LI

distance between structures is not less than 10% of structure span. LI

Please contact Technical Department for advice. . .

Fig. 8. Minimum clear spacing for multiple installations Exceptions to the above are possible after consultation with Technical Department of the company.

14.

4.9. Foundation MultiPlate MP200 structures with closed shapes (round, elliptical, pipe-arch) are placed on soil bedding as follow: - thickness of soil bedding - min. 30 cm - top portion of the bedding should be shaped to fit to the bottom plates of a structure - particular care should be exercised in compacting soil under haunches - about 5-15 cm layer of the bedding should be relatively loose material so that the corrugation can seat in it .

MultiPlate MP200 structures with open shapes are placed on concrete (Fig. 2) or flexible (Fig. 3) footings. For mounting the structure on the rock foundation it is used a flat steel plate bolted to the plate (Fig. 1). Fot. 1. .

Fot. 2.

Connection of MultiPlate MP200 structure with concrete footing

Fot. 3.

Flat steel mounting to the structure with an open cross-section

Connection of MultiPlate MP200 structure with flexible footing

4.10. Tolerances Plate dimensions tolerances: Structure dimensions (span, rise, length) after torque should not be different than designed with tolerances of ± 2%. Deformation of cross section after backfilling shouldn't exceed 2% of the span measured after assembly.

4.11. Construction protection against rainwater In order to preserve structures against rain water that can infiltrate through backfilling it is necessary to make suitable protection. For that purpose a layer of 1,0 mm HDPE geomembrane enclosed by two layers of 500 g/m2 non-woven was placed over steel structures. For some overpasses this “umbrella” was made with the use of two layers of bentonite mat (geosynthetic clay layer).

www.viacon.pl

15.

4.12. Bedding and backfill Material: - gravel, sand -gravel mix, all-in aggregates and crushed stone can be used as bedding and backfill material - aggregate grain size depends on size of corrugation profile; for 200x55 mm max size is 42 mm - aggregate size should be 0-42 mm, ununiformity coefficient Cu>4,0 curvature coefficient 16 m/24 hours - the use of cohesive soil, organic soil and soils included permafrost is not acceptable - backfill material arround the structure should be placed in uncompacted layers maximum 30 cm thick and then compacted - the fill should be placed on both sides of the structure at the same time or alternating from one side of the structure to the other side to keep it close to the same elevation on both sides of the structure at all times. No more than one layer difference in elevation on each side should be allowed. Each layer must be compacted to the specified density before adding the next layer - backfill material should be compacted to minimum 0,95 of normal Proctor density, but 0,98 of normal Proctor density - in the remaining area

b)

c)

Fig. 9. Backfill structure depending on the location

16.

4.13. End treatment (inlet/outlet) End treatment depends on the way the ends of the structure are cut (Fig 6). For beveled ends, slopes can be finished by paving with stones blocks, etc. For bevel ends with gabion mattress, waterproof soulutions must be applied. Please contact Technical Department for advice.

As an alternative to concrete headwall MSE walls for instance ViaWall (retaining wall with the face from a reinforced concrete panel) or ViaBlock system (a retaining wall with the face from concrete blocks) or gabions can be applied. The ground around the MultiPlate construction can be reinforced with using steel or geosynthetic reinforcing meshes.

Fot. 4. Beveled end in concrete walls

Fot. 5. Headwalls with the face from gabions

4.14. Concrete collar Concrtete collar is used: - in order to stiffen inlet and outlet of MultiPlate structure with beveled ends - as finishing element used as support of end treatment . . Concrete collar is applied mostly in following cases: - structures with skew angles to the road axis, when skew angle on outlet and inlet is ≤ 650 and span is > 3,5 m - structures exceed 6,0 m span - large skews . For smaller objects which do not meet the above criteria, may also be used stiffened collar or type of bands such as concrete as supporting element. .

www.viacon.pl

17.

4.15. Fittings MultiPlate MP200 structures can be equipped with additional elements depending on function of the strtucture e.g.: - lighting boxes - ventilation - shelves for animals - technical hotels - others Please contact Technical Department for advice.

18.

4.16. Durability Following factors have an influence on structure's durability: - agrgressiveness of ann environment - abrazion - corrosion protection - plate thickness - quality and frequency maintenance

Procedure of calculating durability of MultiPlate structures: - define the function of a structure - define the required durability of a structure - define the aggressiveness of the environment (water, backfill, air) - select the type of a structure - specify the plate thickness based on static calculations (acc. to Sundquist-Petterson method) - specify the corrosion protection (thickness of zinc coating, paint coating, extend of painting, painting procedure) - define annual loss of the protection layers in upper and lower part of a structure - calculate the structure durability by considering corrosion progress over service lifetime - compare calculated durability with the required

In cases, when the durability of MultiPlate structure is not enough, following measures can be taken : - change the corrosion protection (thickness of zinc layer, paint coat) - increase the plate thickness - reduce the design effort (through, for example, a change of overburden) - change the construction shape (example use oval shape) - re-calculate the durability and compare with required

Durability of ViaCoat system is higher than sum of durability of the protection of each layers and can be calculated as:

SD=α (SC+SZ)

where: SD – total durability of the protection layer SC – durability of zinc coat SZ – durability of the epoxy coat α – synergy factor (from 1,5 to 2,0) for 200 μm thick paint layer α=1,5, for 400µm thick paint layer - α=1,75 .

www.viacon.pl

19.

5. Installation and construction procedures .. 5.1. 5.1. .1.Delivery Delivery MultiPlate MP200 structures are delivered at site with the following elements: - plates are shipped nested in bundles, complete with wall, bolts and nuts necessary for erection. Each bundle includes plates with the same type and radius. The weight of each package can not exceed 3,5 tons - plates are color coded for easy identification, corresponding to the enclosed assembly drawing - outer plates with cuts (inlet and outlet of the structure) are numbered - bolts, nuts, anchor bolts technical drawings as well as assembly tools (crowbar, bolts feeder, gripper, punch) are delivered in one seperate package - the cans of extra paint are also provided to repair damages - base channel for footing connection can be delivered earlier, when foundation is prepared - all elements delivered at site are listed on packing list . .

While unloading, each delivery should be checked in comparison with a packing list. The number of plates should be equal to the amount listed on assembly drawing. Other elements such as: bolts, nuts, anchor bolts, base channels and assembly tools are listed on the assembly list. .

Unloading can be realized with a crane or an excavator and with use of belts. It is not allowed to use equipment that can damage protective layers. Make sure to adjust the carrying capacity of equipment of weight of bundles.

Small damage appeared during transport, loading and unloading could be repaired on the building site after assembly. There is .

20.

always repair paint kit delivered withe the structures.

5.2. Assembly Assembly of MultiPlate MP200 is quick and easy. It is important to study carefully the assembly drawings and assembly instruction before installation. Assembly instruction presents the position of each plate in the structure area and describes the assembly rules. It is necessary to follow the assembly guide step by step. Detailed assembly instructions are delivered with each structure.

For profile with a closed shape, placed on soil foundation, the assembly process starts after preparing the bedding. For profile with an open shape, placed on concrete foundation, the assembly process starts after making concrete foundationwith fixed anchor bolts. Anchor bolts are used to connect base channels, which allows to mount the structure elements.

When tightening the bolts during assembly of MultiPlate MP200 allow for some loose on bolting connection. It allows for better adjustment of plates. Fully torque will be applied after completion of assembly. The position of nuts (inside or outside) is not important from static point of view. In case of used ribs, the bolts position should be placed as on assembly drawing. Nuts situated with no access to use wrench machine, should be fully torqued in the first stage.

. 5.3. Torque of bolts

For connection of corrugated plates in MultiPlate MP200 structures bolts MP20 with nuts are used. Bolts and nuts are color coded for ease in identification and delivered together with steel plates in separate packages. Final torque should be done after whole structures is assembled but before backfilling. Bolts should be tighten progressively and uniformly, starting from the center of the structure towards both ends. During backfilling checks of torque should be done as the actual bolt torque can decrease slightly due to deformation The recommended torque is: min. 240 Nm, for structures with span ≤ 7,0 m min. 360 Nm, for structures with span > 7,0 m

Tests shows that the torque moment has an impact on plates joining. Tighten the screws to the desired values must symmetrically act from the inlet and outlet, respectively the ring after the ring. Upon receipt of construction, the contractor should always submit a report on the measurement of bolt torque 5% of the whole number of bolts should be checked for torque. Minimum 95% of checked bolts must have required torque and the torque of remaining 5% can not be less than 200 Nm. The measurements are realized with use of dynamometrical key, with a valid calibration certificate.

www.viacon.pl

21.

5.4. Assembly equipment

The size and type of scaffolding and equipment for easy installation varies depending on the size of the structure. Small structures (with span of about 2,5 m and rise 1,8 m) do not require putting up scaffolding. Assembly equipment used for assembly at site: . - hand and power wrenches, torque wrench - scaffoldinga and ladders - feeders for bolts, belts and ropes

5.5. Assembly time

Installation time can be estimated based on several methods. In a simplified way, it can be assumed that in good weather conditions, experienced assembly crew (6-8 people) equipped with assembly tools is able to install about 45 corrugated plates per day (working 8 hours). In order to estimate assembly the following data is required: - structure destination - building site conditions - available assembly tools - shape and size of structure - range of ribs - etc.

In order to perform this calculation, please contact our Technical Department.

22.

5.6. Deformation during backfilling During backfilling of MultiPlate MP200 structure will deform developing soil - structure interaction. The MultiPlate MP200 structure with surrounding soil, constitute soil - steel composite structure with soil being a major load carrying component. Deformation of the structure should be controlled. Please contact Technical Department for estimation of deformation of MultiPlate MP200 structure during backfilling.

5.7. Shape control Structure must be checked periodically during the backfilling procedure to ensure the shape is consistent with the procedur's recommendation. Once one full ring of the structure is assembled, preliminary shape control should be performed. Shape checks should be carried out both during and after assembly. It is recommended that the procedur's representative should be present during erectuion and backfilling of the structure. Control of compaction during construction is the responsibility of the contractor. . To prevent excessive deformation of the structure, the crown may be loaded by reducing the uplift of the structure. Care should be taken not to cause too much downforce. If there is an excessive displacement of the structure on one side or in the case of excessive uplift of the structure, replace part or all of the backfilling. .

In order to control the proper execute of backfilling, it is recommended to define the size of deformation before backfilling. The way of shape control of the structure during compaction of backfilling should be described in the technical specifications or agreed with the supplier. . The most common method of measuring deflections and horizontal displacement is precise geodetic measurements. . .

www.viacon.pl

23.

6. Relining MultiPlate MP200 structures are also commonly used to repair old culverts and bridges where there are no possibillities to biuld a new one. The method is called relining. Corrugated steel structure is placed inside the existing structure (bridge/culvert/ underpass) and space between an old facilities and a new structural plate is filled with concrete class of min. C16/20. This method allows to strenghten the structures without any traffic stops and eliminates the necessity of remaining the old structure. The control of pouring concrete between existing structure and new steel structure should be done by revision holes. During pouring concrete it is necessary to control deformation of MultiPlate MP200. They shouldn't exceed limits allowed in section No. 4.10 . In case of open shapes structures, when relining will be used it is necessity to make concrete footing which could be connected to existing one. Existing footings can be used also but it will require separate analysis or expertise. .

24.

7. Tests In order to continuously improve design method we cooperate with science centers and research institutes in Europe. Effect of this collaboration is number of research programs including MultiPlate MP200 structures.

MultiPlate MP200 tests done in Poland and Europe:

- Sweden MP200 (6,04x4,55) Natural scale testing of MultiPlate MP200 structuresc under road load - IBDiM, Żmigród — Węglewo, Poland MP150 GL-4, DV 800, HC 800 Report of the implementation research for MultiPlate culverts - Murzynowo Leśne, Poland MP150 L-38 Research of brick culvert reinforced of multiple structures of MultiPlate - Stary Waliszów, Poland MP150 V-45 The study bridge structure made of burried flexible plates of MultiPlate under static load . - Lewin Kłodzki, Poland MP150-17B Effort of a box cluvert of MP150 17B - Stacja Św. Katarzyna, Poland MP150 L-16 Research under static load test of railway culvert at km 170.168 in the section of Oława-Wrocław Brochów - Poznań ul. Rubież, Poland MP150 UP-109 Research under static load test of railway culvert over the Rubież street . - Railway line of Wrocław Międzylesie, Poland MP150 2xL-29 Research under static load test of railway bridge at km. 99,912 in section Wrocław — Międzylesie

www.viacon.pl

25.

8. Profiles

reinforced ribs

26.

BURIED FLEXIBLE STEEL STRUCTURES

MultiPlate MP200 VM VM

V

VM

VM1 VM1 VM2 VM2 VM3 VM3 VM4 VM4 VM5 VM5 VM6 VM6 VM7 VM7 VM8 VM8 VM9 VM9 VM10 VM10 VM11 VM11 VM12 VM12 VM13 VM13 VM14 VM14 VM15 VM15 VM16 VM16 VM17 VM17 VM18 VM18 VM19 VM19 VM20 VM20 VM21 VM21 VM22 VM22 VM23 VM23 VM24 VM24 VM25 VM25 VM26 VM26 VM27 VM27 VM28 VM28 VM29 VM29 VM30 VM30 VM31 VM31 VM32 VM32 VM33 VM33 VM34 VM34 VM35 VM35 VM36 VM36 VM37 VM37 VM38 VM38 VM39 VM39 VM40 VM40 VM41 VM41 VM42 VM42 VM43 VM43 VM44 VM44 VM45 VM45 VM46 VM46 VM47 VM47 VM48 VM48 VM49 VM49 VM50 VM50

Periphery in axis [m] x Si-inner [m] Hi-inner [m] Si-inner [m] Hi-inner [m] Periphery-in axis [m] 1,80 1,80 1,89 1,89 2,23 2,23 2,49 2,49 2,84 2,84 3,23 3,23 3,38 3,38 3,65 3,65 3,72 3,72 4,05 4,05 4,13 4,13 4,34 4,34 4,41 4,41 4,49 4,49 4,84 4,84 4,92 4,92 5,14 5,14 5,21 5,21 5,43 5,43 5,58 5,58 5,79 5,79 6,06 6,06 6,25 6,25 6,44 6,44 6,71 6,71 6,78 6,78 6,97 6,97 7,11 7,11 7,24 7,24 7,43 7,43 7,63 7,63 7,89 7,89 8,09 8,09 8,35 8,35 8,55 8,55 8,81 8,81 9,01 9,01 9,27 9,27 9,48 9,48 9,73 9,73 9,96 9,96 10,22 10,22 10,42 10,42 10,67 10,67 10,87 10,87 11,13 11,13 11,33 11,33 11,58 11,58 11,78 11,78 12,03 12,03

1,50 1,50 1,55 1,55 1,68 1,68 1,83 1,83 2,02 2,02 2,15 2,15 2,25 2,25 2,39 2,39 2,44 2,44 2,52 2,52 2,57 2,57 2,72 2,72 3,62 3,62 3,67 3,67 3,82 3,82 3,87 3,87 4,04 4,04 4,09 4,09 4,13 4,13 4,24 4,24 4,40 4,40 4,56 4,56 4,67 4,67 4,70 4,70 4,93 4,93 4,98 4,98 5,09 5,09 5,07 5,07 5,18 5,18 5,35 5,35 5,45 5,45 5,61 5,61 5,71 5,71 5,87 5,87 5,98 5,98 6,13 6,13 6,24 6,24 6,40 6,40 6,50 6,50 6,66 6,66 7,32 7,32 7,49 7,49 7,60 7,60 7,76 7,76 7,87 7,87 8,04 8,04 8,15 8,15 8,31 8,31 8,42 8,42 8,59 8,59

www.viacon.pl www.viacon.pl

5,40 5,40 5,64 5,64 6,34 6,34 7,05 7,05 7,99 7,99 8,69 8,69 9,16 9,16 9,87 9,87 10,10 10,10 10,57 10,57 10,81 10,81 11,51 11,51 12,92 12,92 13,16 13,16 13,86 13,86 14,10 14,10 14,80 14,80 15,04 15,04 15,27 15,27 15,74 15,74 16,45 16,45 17,15 17,15 17,63 17,63 17,86 17,86 18,80 18,80 19,03 19,03 19,50 19,50 19,50 19,50 19,97 19,97 20,68 20,68 21,15 21,15 21,85 21,85 22,32 22,32 23,03 23,03 23,50 23,50 24,20 24,20 24,67 24,67 25,38 25,38 25,85 25,85 26,55 26,55 27,73 27,73 28,43 28,43 28,90 28,90 29,61 29,61 30,08 30,08 30,78 30,78 31,25 31,25 31,96 31,96 32,43 32,43 33,13 33,13

[m] R1-in axis [m] x [m] R1-in axis [m] 0,51 0,51 0,53 0,53 0,57 0,57 0,62 0,62 0,68 0,68 0,73 0,73 0,76 0,76 0,81 0,81 0,82 0,82 0,85 0,85 0,86 0,86 0,91 0,91 1,21 1,21 1,23 1,23 1,28 1,28 1,29 1,29 1,35 1,35 1,37 1,37 1,38 1,38 1,42 1,42 1,47 1,47 1,52 1,52 1,56 1,56 1,57 1,57 1,64 1,64 1,66 1,66 1,69 1,69 1,69 1,69 1,73 1,73 1,78 1,78 1,82 1,82 1,87 1,87 1,90 1,90 1,95 1,95 1,99 1,99 2,04 2,04 2,08 2,08 2,13 2,13 2,16 2,16 2,21 2,21 2,43 2,43 2,49 2,49 2,52 2,52 2,58 2,58 2,61 2,61 2,67 2,67 2,71 2,71 2,76 2,76 2,80 2,80 2,85 2,85

0,93 0,93 0,97 0,97 1,18 1,18 1,28 1,28 1,45 1,45 1,69 1,69 1,74 1,74 1,87 1,87 1,90 1,90 2,16 2,16 2,17 2,17 2,22 2,22 2,23 2,23 2,27 2,27 2,45 2,45 2,49 2,49 2,59 2,59 2,63 2,63 2,76 2,76 2,82 2,82 2,92 2,92 3,05 3,05 3,15 3,15 3,26 3,26 3,38 3,38 3,41 3,41 3,51 3,51 3,60 3,60 3,66 3,66 3,74 3,74 3,84 3,84 3,97 3,97 4,07 4,07 4,20 4,20 4,30 4,30 4,43 4,43 4,53 4,53 4,66 4,66 4,77 4,77 4,89 4,89 5,01 5,01 5,13 5,13 5,23 5,23 5,36 5,36 5,46 5,46 5,59 5,59 5,69 5,69 5,82 5,82 5,92 5,92 6,04 6,04

R2-in axis [m] R2-in axis [m] 0,63 0,63 0,63 0,63 0,63 0,63 0,63 0,63 0,63 0,63 0,63 0,63 0,63 0,63 0,63 0,63 0,63 0,63 0,63 0,63 0,63 0,63 0,63 0,63 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,31 1,66 1,66 1,66 1,66 1,66 1,66 1,66 1,66 1,66 1,66 1,66 1,66 1,66 1,66 1,66 1,66 1,66 1,66 1,66 1,66

R3-in axis [m] R3-in axis [m] 1,72 1,72 2,26 2,26 1,77 1,77 2,91 2,91 4,76 4,76 3,16 3,16 4,19 4,19 5,06 5,06 6,02 6,02 3,83 3,83 4,25 4,25 6,17 6,17 3,94 3,94 4,26 4,26 3,92 3,92 4,17 4,17 5,11 5,11 5,50 5,50 4,41 4,41 4,93 4,93 5,92 5,92 6,45 6,45 6,58 6,58 5,81 5,81 7,24 7,24 7,68 7,68 7,79 7,79 6,54 6,54 7,21 7,21 8,46 8,46 8,56 8,56 9,13 9,13 9,22 9,22 9,80 9,80 9,89 9,89 10,47 10,47 10,55 10,55 11,14 11,14 11,21 11,21 11,80 11,80 9,23 9,23 9,63 9,63 9,74 9,74 10,15 10,15 10,26 10,26 10,67 10,67 10,77 10,77 11,18 11,18 11,29 11,29 11,70 11,70

W1[0]

W1[0]

158,81 158,81 166,21 166,21 136,76 136,76 157,66 157,66 167,36 167,36 143,17 143,17 154,71 154,71 158,08 158,08 163,20 163,20 137,27 137,27 142,54 142,54 157,33 157,33 174,99 174,99 178,08 178,08 164,54 164,54 167,62 167,62 176,45 176,45 179,26 179,26 161,02 161,02 166,82 166,82 175,05 175,05 176,35 176,35 175,07 175,07 165,05 165,05 175,08 175,08 177,46 177,46 176,26 176,26 164,52 164,52 169,33 169,33 176,22 176,22 175,11 175,11 176,19 176,19 175,12 175,12 176,16 176,16 175,13 175,13 176,13 176,13 175,14 175,14 176,10 176,10 175,15 175,15 176,08 176,08 177,46 177,46 178,27 178,27 177,47 177,47 178,26 178,26 177,49 177,49 178,25 178,25 177,50 177,50 178,24 178,24 177,51 177,51 178,23 178,23

W2[0]

W2[0]

85,00 85,00 85,00 85,00 85,00 85,00 85,00 85,00 85,00 85,00 85,00 85,00 85,00 85,00 85,00 85,00 85,00 85,00 85,00 85,00 85,00 85,00 85,00 85,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 72,00 65,00 65,00 65,00 65,00 65,00 65,00 65,00 65,00 65,00 65,00 65,00 65,00 65,00 65,00 65,00 65,00 65,00 65,00 65,00 65,00

W3[0]]

W3[0]

31,19 31,19 23,79 23,79 53,24 53,24 32,34 32,34 22,64 22,64 46,83 46,83 35,29 35,29 31,92 31,92 26,80 26,80 52,73 52,73 47,46 47,46 32,67 32,67 41,01 41,01 37,92 37,92 51,46 51,46 48,38 48,38 39,55 39,55 36,74 36,74 54,98 54,98 49,18 49,18 40,95 40,95 39,66 39,66 40,93 40,93 50,95 50,95 40,92 40,92 38,53 38,53 39,74 39,74 51,48 51,48 46,67 46,67 39,78 39,78 40,89 40,89 39,81 39,81 40,88 40,88 39,84 39,84 40,87 40,87 39,87 39,87 40,86 40,86 39,90 39,90 40,85 40,85 39,92 39,92 52,54 52,54 51,73 51,73 52,53 52,53 51,74 51,74 52,52 52,52 51,75 51,75 52,50 52,50 51,76 51,76 52,49 52,49 51,77 51,77

A-inner [m 2] 2 A-inner [m ] 2,12 2,12 2,31 2,31 2,91 2,91 3,57 3,57 4,54 4,54 5,33 5,33 5,91 5,91 6,81 6,81 7,13 7,13 7,75 7,75 8,09 8,09 9,14 9,14 12,62 12,62 13,07 13,07 14,46 14,46 14,94 14,94 16,43 16,43 16,95 16,95 17,44 17,44 18,50 18,50 20,16 20,16 21,86 21,86 23,04 23,04 23,61 23,61 26,10 26,10 26,73 26,73 28,02 28,02 27,99 27,99 29,33 29,33 31,38 31,38 32,78 32,78 34,92 34,92 36,39 36,39 38,64 38,64 40,19 40,19 42,55 42,55 44,17 44,17 46,64 46,64 48,33 48,33 50,92 50,92 57,16 57,16 60,02 60,02 61,97 61,97 64,95 64,95 66,98 66,98 70,06 70,06 72,17 72,17 75,37 75,37 77,55 77,55 80,87 80,87

27. 17.

Profiles VN VN

28.

Periphery in axis [m]

R1-in axis [m]

R2-in axis [m]

R3-in axis [m]

W1[0]

W3[0]

W2[0]

A-inner [m2]

VN

Si-inner [m]

VN1

2,14

1,64

6,11

0,56

1,15

0,63

1,55

129,15

85,00

60,85

2,70

VN2

2,24

1,68

6,34

0,57

1,18

0,63

1,77

136,76

85,00

53,24

2,91

VN3

2,35

1,73

6,58

0,59

1,27

0,63

1,73

127,73

85,00

62,27

3,12

VN4

2,97

2,00

7,99

0,68

1,63

0,63

2,25

124,11

85,00

65,89

4,53

VN5

3,35

2,19

8,93

0,74

1,79

0,63

2,97

135,61

85,00

54,39

5,61

VN6

3,67

2,61

10,10

0,88

1,98

0,98

3,24

122,23

96,00

45,78

7,44

VN7

3,76

2,65

10,34

0,89

2,01

0,98

3,63

127,15

96,00

40,86

7,78

[m] VN VN8 Si-inner 3,97 4,14 VN9 2,14 VN1 4,60 VN10 2,24 VN2 5,24 VN11 2,35 VN3 5,41 VN12 2,97 VN4 5,62 VN13 3,35 VN5 5,84 VN14 3,67 VN6 5,99 VN15 3,76 VN7 6,18 VN16 3,97 VN8 6,34 VN17 4,14 VN9 6,55 VN18 4,60 VN10 6,63 VN19 5,24 VN11 6,90 VN20 5,41 VN12 7,18 VN21 5,62 VN13 7,39 VN22 5,84 VN14 7,60 VN23 5,99 VN15 7,89 VN24 6,18 VN16 8,11 VN25 6,34 VN17 8,32 VN26 6,55 VN18 8,54 VN27 6,63 VN19 8,83 VN28 6,90 VN20 9,04 VN29 7,18 VN21 9,25 VN30 7,39 VN22 9,47 VN31 7,60 VN23 9,68 VN32 7,89 VN24 9,97 VN33 8,11 VN25 10,18 VN34 8,32 VN26 10,40 VN35 8,54 VN27

Hi-inner2,73 [m] 2,82 1,64 2,98 1,68 3,23 1,73 3,32 2,00 3,40 2,19 3,48 2,61 3,57 2,65 3,60 2,73 3,69 2,82 3,77 2,98 3,82 3,23 3,89 3,32 4,19 3,40 4,27 3,48 4,35 3,57 4,48 3,60 4,56 3,69 4,65 3,77 4,73 3,82 4,86 3,89 4,94 4,19 5,02 4,27 5,10 4,35 5,19 4,48 5,31 4,56 5,40 4,65 5,48 4,73

0 W1[126,14 ] 135,41 129,15 123,37 136,76 120,95 127,73 129,22 124,11 128,33 135,61 127,47 122,23 135,11 127,15 122,05 126,14 129,59 135,41 128,77 123,37 132,37 120,95 123,65 129,22 127,84 128,33 127,14 127,47 126,46 135,11 128,92 122,05 128,24 129,59 127,58 128,77 126,58 132,37 129,23 123,65 128,59 127,84 127,97 127,14 127,37 126,46 126,78 128,92 128,90 128,24 128,32 127,58 127,75 126,58

0 W2[96,00 ] 96,00 85,00 96,00 85,00 96,00 85,00 96,00 85,00 96,00 85,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00 96,00

W3[041,87 ] 32,59 60,85 44,63 53,24 47,05 62,27 38,79 65,89 39,67 54,39 40,53 45,78 32,89 40,86 45,95 41,87 38,41 32,59 39,23 44,63 35,63 47,05 44,35 38,79 40,16 39,67 40,86 40,53 41,54 32,89 39,08 45,95 39,76 38,41 40,42 39,23 41,05 35,63 38,77 44,35 39,41 40,16 40,03 40,86 40,63 41,54 41,22 39,08 39,10 39,76 39,68 40,42 40,26 41,05

A-inner 8,45 [m2] 9,15 2,70 10,62 2,91 13,02 3,12 13,87 4,53 14,73 5,61 15,63 7,44 16,56 7,78 17,01 8,45 17,98 9,15 18,96 10,62 19,47 13,02 20,46 13,87 23,09 14,73 24,20 15,63 25,34 16,56 27,08 17,01 28,28 17,98 29,51 18,96 30,75 19,47 32,66 20,46 33,96 23,09 35,30 24,20 36,66 25,34 38,03 27,08 40,15 28,28 41,58 29,51 43,06 30,75

Hi-inner [m]

x [m]

Periphery-in10,81 axis [m] x [m]0,92 0,95 11,28 0,56 6,11 1,00 12,22 0,57 6,34 1,08 13,63 0,59 6,58 1,11 14,10 0,68 7,99 1,14 14,57 0,74 8,93 1,17 15,04 0,88 10,10 1,20 15,51 0,89 10,34 1,21 15,74 0,92 10,81 1,23 16,21 0,95 11,28 1,26 16,68 1,00 12,22 1,28 16,92 1,08 13,63 1,30 17,39 1,11 14,10 1,40 18,33 1,14 14,57 1,43 18,80 1,17 15,04 1,45 19,27 1,20 15,51 1,50 19,97 1,21 15,74 1,52 20,44 1,23 16,21 1,55 20,91 1,26 16,68 1,58 21,38 16,92 1,28 1,62 22,09 17,39 1,30 22,56 1,65 1,40 18,33 1,67 23,03 1,43 18,80 1,70 23,50 1,45 19,27 1,73 23,97 1,50 19,97 1,77 24,67 1,52 20,44 1,80 25,14 20,91 1,55 25,61 1,82 1,58 21,38

R1-in axis2,14 [m] 2,19 1,15 2,51 1,18 2,89 1,27 2,92 1,63 3,04 1,79 3,17 1,98 3,19 2,01 3,42 2,14 3,43 2,19 3,56 2,51 3,56 2,89 3,81 2,92 3,90 3,04 4,02 3,17 4,15 3,19 4,28 3,42 4,41 3,43 4,54 3,56 4,67 3,56 4,79 3,81 4,92 3,90 5,05 4,02 5,18 4,15 5,31 4,28 5,43 4,41 5,56 4,54 5,69 4,67

0,98 R2-in axis [m] 0,98 0,63 0,98 0,63 0,98 0,63 0,98 0,63 0,98 0,63 0,98 0,98 0,98 0,98 0,98 0,98 0,98 0,98 0,98 0,98 0,98 0,98 0,98 0,98 1,12 0,98 1,12 0,98 1,12 0,98 1,12 0,98 1,12 0,98 1,12 0,98 1,12 0,98 1,12 0,98 1,12 1,12 1,12 1,12 1,12 1,12 1,12 1,12 1,12 1,12 1,12 1,12 1,12 1,12

R3-in axis3,86 [m] 4,96 1,55 4,53 1,77 5,15 1,73 6,25 2,25 6,45 2,97 6,64 3,24 8,19 3,63 6,45 3,86 7,71 4,96 7,89 4,53 8,69 5,15 7,59 6,25 8,38 6,45 8,57 6,64 8,75 8,19 9,65 6,45 9,82 7,71 9,99 7,89 10,17 8,69 11,11 7,59 11,28 8,38 11,44 8,57 11,60 8,75 11,76 9,65 12,74 9,82 12,89 9,99 13,04 10,17

VN28

8,83

4,86

22,09

1,62

4,79

1,12

11,11

129,23

96,00

38,77

32,66

VN29

9,04

4,94

22,56

1,65

4,92

1,12

11,28

128,59

96,00

39,41

33,96

VN30

9,25

5,02

23,03

1,67

5,05

1,12

11,44

127,97

96,00

40,03

35,30

VN31

9,47

5,10

23,50

1,70

5,18

1,12

11,60

127,37

96,00

40,63

36,66

VN32

9,68

5,19

23,97

1,73

5,31

1,12

11,76

126,78

96,00

41,22

38,03

VN33

9,97

5,31

24,67

1,77

5,43

1,12

12,74

128,90

96,00

39,10

40,15

VN34

10,18

5,40

25,14

1,80

5,56

1,12

12,89

128,32

96,00

39,68

41,58

VN35

10,40

5,48

25,61

1,82

5,69

1,12

13,04

127,75

96,00

40,26

43,06

BURIED FLEXIBLE STEEL STRUCTURES

MultiPlate MP200 VR VR

VR

Si-inner [m]

Hi-inner [m]

Periphery in axis [m]

x [m]

R1-in axis [m]

R2-in axis [m]

R3-in axis [m]

W1[0]

W2[0]

W3[0]

A-inner [m2]

VR1

2,84

2,50

8,69

0,84

1,45

0,90

2,67

204,66

60,00

35,34

5,68

VR2

3,17

2,73

9,64

0,92

1,61

0,90

3,49

209,09

60,00

30,91

6,96

VR3

3,24

2,79

9,87

0,94

1,65

0,90

3,94

212,63

60,00

27,38

7,3

VR4

3,64

3,01

10,81

1,01

1,84

0,90

3,46

197,21

60,00

42,79

8,74

204,01 W1[0] 204,67

60,00 W2[0] 60,00

35,99 W3[0] 35,33

9,51 A-inner [m2] 10,72

VR5 VR VR6

3,78 Si-inner [m] 4,03

3,13 Hi-inner [m] 3,30

11,28 Periphery-in axis [m] 11,98

1,05 x [m] 1,11

1,91 R1-in axis [m] 2,04

0,90 R2-in axis [m] 0,90

4,12 R3-in axis [m] 4,57

VR7VR1

4,172,84

3,432,50

8,69 12,46

1,150,84

2,111,45

0,900,90

5,522,67

204,66 210,72

60,00 60,00

35,34 29,28

5,68 11,58

VR8VR2

4,583,17

3,642,73

9,64 13,39

1,220,92

2,311,61

0,900,90

4,793,49

209,09 197,80

60,00 60,00

30,91 42,20

6,96 13,35

VR9VR3

4,783,24

3,832,79

9,87 14,10

1,280,94

2,421,65

0,900,90

6,003,94

212,63 206,32

60,00 60,00

27,38 33,68

14,797,3

VR4 VR10

4,913,64

3,953,01

10,81 14,57

1,321,01

2,481,84

0,900,90

7,113,46

197,21 211,59

60,00 60,00

42,79 28,41

8,74 15,78

VR5 VR11

5,273,78

4,103,13

11,28 15,27

1,371,05

2,661,91

0,900,90

5,704,12

204,01 197,47

60,00 60,00

35,99 42,53

17,39,51

VR6 VR12

5,524,03

4,273,30

11,98 15,98

1,431,11

2,792,04

0,900,90

6,134,57

204,67 198,23

60,00 60,00

35,33 41,77

10,72 18,91

VR7 VR13

5,774,17

4,453,43

12,46 16,68

1,481,15

2,912,11

0,900,90

6,565,52

210,72 198,94

60,00 60,00

29,28 41,06

11,58 20,59

VR8 VR14

5,964,58

4,643,64

13,39 17,39

1,551,22

3,012,31

0,900,90

7,944,79

197,80 206,06

60,00 60,00

42,20 33,94

13,35 22,37

VR9 VR15

6,174,78

5,163,83

14,10 18,33

1,721,28

3,112,42

1,570,90

5,916,00

206,32 199,01

60,00 60,00

33,68 40,99

14,79 25,56

VR10 VR16

6,394,91

5,343,95

14,57 19,03

1,781,32

3,222,48

1,570,90

6,927,11

211,59 204,96

60,00 60,00

28,41 35,04

15,78 27,54

VR11 VR17

6,645,27

5,524,10

15,27 19,74

1,841,37

3,342,66

1,570,90

7,385,70

197,47 205,32

60,00 60,00

42,53 34,68

17,3 29,58

VR12 VR18

6,895,52

5,694,27

15,98 20,45

1,891,43

3,472,79

1,570,90

7,846,13

198,23 205,67

60,00 60,00

41,77 34,33

18,91 31,69

VR13 VR19

7,175,77

5,944,45

16,68 21,38

1,981,48

3,612,91

1,570,90

9,846,56

198,94 212,64

60,00 60,00

41,06 27,36

20,59 34,64

VR14 VR20

7,325,96

5,984,64

17,39 21,62

1,991,55

3,693,01

1,570,90

8,367,94

206,06 204,59

60,00 60,00

33,94 35,42

22,37 35,37

VR15 VR21

7,576,17

6,155,16

18,33 22,33

2,051,72

3,813,11

1,571,57

8,835,91

199,01 204,93

60,00 60,00

40,99 35,07

25,56 37,67

VR16 VR22

7,856,39

6,405,34

19,03 23,27

2,131,78

3,953,22

1,571,57

6,92 10,86

204,96 211,47

60,00 60,00

35,04 28,53

27,54 40,87

VR17 VR23

8,076,64

6,505,52

19,74 23,74

2,161,84

4,063,34

1,571,57

9,787,38

205,32 205,56

60,00 60,00

34,68 34,44

29,58 42,48

VR18 VR24

8,266,89

6,615,69

20,45 24,21

2,201,89

4,153,47

1,571,57

9,807,84

205,67 204,28

60,00 60,00

34,33 35,72

31,69 44,13

VR19 VR25

8,517,17

6,795,94

21,38 24,91

2,261,98

4,283,61

1,571,57

9,84 10,27

212,64 204,60

60,00 60,00

27,36 35,40

34,64 46,69

VR20

7,32

5,98

21,62

1,99

3,69

1,57

8,36

204,59

60,00

35,42

35,37

VR21

7,57

6,15

22,33

2,05

3,81

1,57

8,83

204,93

60,00

35,07

37,67

VR22

7,85

6,40

23,27

2,13

3,95

1,57

10,86

211,47

60,00

28,53

40,87

VR23

8,07

6,50

23,74

2,16

4,06

1,57

9,78

205,56

60,00

34,44

42,48

VR24

8,26

6,61

24,21

2,20

4,15

1,57

9,80

204,28

60,00

35,72

44,13

VR25

8,51

6,79

24,91

2,26

4,28

1,57

10,27

204,60

60,00

35,40

46,69

www.viacon.pl

29.

Profiles VT VT

VT

Hi-inner [m]

Periphery in axis[m]

x [m]

R1-in axis [m]

R2-in axis [m]

R3-in axis [m]

W1[0]

W2[0]

W3[0]

A-inner [m2]

VT1

2,83

2,68

8,93

0,90

1,44

1,08

3,18

243,05

50,00

16,95

6,05

VT2

3,25

2,98

10,11

1,00

1,65

1,08

3,01

228,63

50,00

31,37

7,76

VT3

3,32

3,05

10,34

1,02

1,69

1,08

3,31

231,51

50,00

28,49

8,13

VT4

3,40

3,11

10,57

1,04

1,72

1,08

3,66

234,28

50,00

25,73

8,51

3,56 Si-inner [m] 3,71 VT6

3,23 Hi-inner [m] 3,36

1,08 1,13

1,81 R1-in axis [m] 1,88

1,08 R2-in axis [m] 1,08

3,70 R3-in axis [m] 4,51

230,92 W1[0] 236,11

50,00 W2[0] 50,00

29,08 W3[0] 23,90

9,27 A-inner [m2] 10,09

VT1 VT7

2,83 3,86

2,68 3,49

8,93 11,99

0,90 1,17

1,44 1,96

1,08 1,08

3,18 5,65

240,94 243,05

50,0050,00

16,9519,06

6,05 10,93

VT2 VT8

3,25 4,22

2,98 3,72

10,1112,93

1,00 1,25

1,65 2,14

1,08 1,08

3,01 4,50

227,07 228,63

50,0050,00

31,3732,93

7,76 12,7

VT3 VT9

3,32 4,29

3,05 3,79

10,3413,16

1,02 1,27

1,69 2,17

1,08 1,08

3,31 4,85

229,46 231,51

50,0050,00

28,4930,54

8,13 13,16

VT4 VT10

3,40 4,44

3,11 3,92

10,5713,63

1,04 1,31

1,72 2,24

1,08 1,08

3,66 5,70

234,03 234,28

50,0050,00

25,7325,97

8,51 14,13

VT5 VT11

3,56 4,53

3,23 3,97

11,0513,86

1,08 1,33

1,81 2,29

1,08 1,08

3,70 5,22

229,06 230,92

50,0050,00

29,0830,94

9,27 14,61

VT6 VT12

3,71 4,75

3,36 4,17

11,5214,57

1,13 1,39

1,88 2,40

1,08 1,08

4,51 6,61

235,55 236,11

50,0050,00

23,9024,45

10,0916,13

VT7 VT13

3,86 5,04

3,49 4,75

11,9915,75

1,17 1,59

1,96 2,55

1,08 1,89

5,65 4,92

238,12 240,94

50,0050,00

19,0621,88

10,9319,17

VT8 VT14

4,22 5,19

3,72 4,88

12,9316,22

1,25 1,63

2,14 2,62

1,08 1,89

4,50 5,81

241,47 227,07

50,0050,00

32,9318,53

12,7 30,22

VT9 VT15

4,29 5,45

3,79 5,06

13,1616,92

1,27 1,69

2,17 2,75

1,08 1,89

4,85 4,91

229,85 229,46

50,0050,00

30,5430,15

13,1622,13

VT10 VT16

4,44 5,68

3,92 5,25

13,6317,63

1,31 1,75

2,24 2,87

1,08 1,89

5,70 5,89

234,84 234,03

50,0050,00

25,9725,16

14,1324,01

VT11 VT17

4,53 5,92

3,97 5,43

13,8618,33

1,33 1,81

2,29 2,99

1,08 1,89

5,22 6,31

234,38 229,06

50,0050,00

30,9425,62

14,6125,96

VT12 VT18

4,75 6,22

4,17 5,69

14,5719,27

1,39 1,90

2,40 3,14

1,08 1,89

6,61 8,24

240,38 235,55

50,0050,00

24,4519,62

16,1328,69

VT13 VT19

5,04 6,42

4,75 5,80

15,7519,74

1,59 1,93

2,55 3,24

1,89 1,89

4,92 6,46

228,72 238,12

50,0050,00

21,8831,29

19,1730,07

VT14 VT20

5,19 6,50

4,88 5,86

16,2219,98

1,63 1,95

2,62 3,28

1,89 1,89

5,81 6,79

230,23 241,47

50,0050,00

18,5329,77

30,22 30,8

VT15 VT21

5,45 6,72

5,06 6,06

16,9220,68

1,69 2,02

2,75 3,39

1,89 1,89

4,91 7,95

234,61 229,85

50,0050,00

30,1525,39

22,13 33

VT16 VT22

5,68 7,02

5,25 6,32

17,6321,62

1,75 2,10

2,87 3,53

1,89 1,89

5,89 10,13

240,06 234,84

50,0050,00

25,1619,94

24,0136,04

VT17 VT23

5,92 7,15

5,43 6,36

18,3321,86

1,81 2,11

2,99 3,60

1,89 1,89

6,31 7,58

228,02 234,38

50,0050,00

25,6231,98

25,9636,81

VT18 VT24

6,22 7,40

5,69 6,54

19,2722,56

1,90 2,17

3,14 3,72

1,89 1,89

8,24 7,95

227,81 240,38

50,0050,00

19,6232,19

28,6939,19

VT19 VT25

6,42 7,52

5,80 6,68

19,7423,03

1,93 2,22

3,24 3,79

1,89 1,89

6,46 9,62

234,80 228,72

50,0050,00

31,2925,20

30,0740,84

VT20 VT26

6,50 7,64

5,86 6,72

19,9823,26

1,95 2,24

3,28 3,85

1,89 1,89

6,79 8,32

227,62 230,23

50,0050,00

29,7732,38

30,8 41,65

VT21 VT27

6,72 7,76

6,06 6,87

20,6823,74

2,02 2,28

3,39 3,91

1,89 1,89

7,95 10,01

234,43 234,61

50,0050,00

25,3925,57

33 43,37

VT22 VT28

7,02 8,07

6,32 7,12

21,6224,68

2,10 2,36

3,53 4,06

1,89 1,89

10,1310,91

235,31 240,06

50,0050,00

19,9424,69

36,0446,83

VT23 VT29

7,15 8,27

6,36 7,23

21,8625,14

2,11 2,40

3,60 4,16

1,89 1,89

7,58 9,80

229,79 228,02

50,0050,00

31,9830,21

36,8148,59

VT24 VT30

7,40 8,44

6,54 7,35

22,5625,62

2,17 2,44

3,72 4,25

1,89 1,89

7,95 9,78

228,33 227,81

50,0050,00

32,1931,67

39,1950,41

VT25 VT31

7,52 8,56

6,68 7,49

23,0326,08

2,22 2,49

3,79 4,30

1,89 1,89

9,62 11,67

234,61 234,80

50,0050,00

25,2025,39

40,8452,29

VT26 VT32

7,64 8,66

6,72 7,54

23,2626,32

2,24 2,51

3,85 4,35

1,89 1,89

8,32 11,05

231,96 227,62

50,0050,00

32,3828,04

41,65 53,2

VT27 VT33

7,76 8,87

6,87 7,74

23,7427,02

2,28 2,57

3,91 4,46

1,89 1,89

10,0112,60

235,42 234,43

50,0050,00

25,5724,58

43,3756,08

VT28 VT34

8,07 9,00

7,12 7,95

24,6827,50

2,36 2,64

4,06 4,52

1,89 2,15

10,9111,91

235,12 235,31

50,0050,00

24,6924,88

46,83 58,3

VT29 VT35

8,27 9,24

7,23 8,14

25,1428,20

2,40 2,70

4,16 4,65

1,89 2,15

9,80 12,29

234,81 229,79

50,0050,00

30,2125,19

48,5961,28

VT30

8,44

7,35

25,62

2,44

4,25

1,89

9,78

228,33

50,00

31,67

50,41

VT31

8,56

7,49

26,08

2,49

4,30

1,89

11,67

234,61

50,00

25,39

52,29

VT32

8,66

7,54

26,32

2,51

4,35

1,89

11,05

231,96

50,00

28,04

53,2

VT33

8,87

7,74

27,02

2,57

4,46

1,89

12,60

235,42

50,00

24,58

56,08

VT34

9,00

7,95

27,50

2,64

4,52

2,15

11,91

235,12

50,00

24,88

58,3

VT35

9,24

8,14

28,20

2,70

4,65

2,15

12,29

234,81

50,00

25,19

61,28

VT

30.

Si-inner [m]

VT5

11,05 Periphery-in axis [m] 11,52

x [m]

BURIED FLEXIBLE STEEL STRUCTURES

MultiPlate MP200 VF VF

VF

Si-inner [m]

Hi-inner [m]

Periphery in axis [m]

x [m]

R1-in axis [m]

R2-in axis [m]

R3-in axis [ m]

R4-in axis [m]

W1[0]

W

2[0]

4[0]

W3[0]

A-w świetle [m

VF1

1,96

1,92

6,34

0,66

0,89

0,70

2,02

1,47

106,27

76,94

26,71

36,57

2,97

VF2

2,62

2,26

7,99

0,76

1,25

0,70

3,17

1,87

118,75

76,94

29,77

28,80

4,71

VF3

2,85

2,49

8,69

0,84

1,16

0,70

3,61

1,98

80,99

76,94

29,88

47,62

5,56

VF4

3,39

3,18

10,57

1,07

1,47

1,22

3,19

2,10

73,44

77,26

29,59

51,23

10,81

2,83 99,92 0 R4-in axis [m] W1[ ] 3,35 119,68 1,47 106,27 2,94 102,42 1,87 118,75 79,52 3,08 1,98 80,99

76,94 0 W2[ ] 76,94 76,94 77,26 76,94 77,26 76,94

30,02 0 W3[ ] 30,22 26,71 29,80 29,77 29,81 29,88

38,09 0 W4[ ] 28,11 36,57 36,63 28,80 48,08 47,62

VF5 VF VF6 VF1 VF7 VF2 VF8 VF3

0,70 1,48 R1-in axis [m] R2-in axis [m] 1,69 0,70 0,70 0,89 1,97 1,22 1,25 0,70 1,86 1,22 1,16 0,70

4,93 R3-in axis [m] 5,35 2,02 4,97 3,17 5,42 3,61

8,49

3,54 Si-inner [m] 3,77 1,96 4,32 2,62 4,55 2,85

3,07 Hi-inner [m] 3,24 1,92 3,81 2,26 4,04 2,49

Periphery-in axis [m]

11,51 6,34 13,16 7,99 13,86 8,69

1,03 x [m] 1,08 0,66 1,27 0,76 1,35 0,84

VF4

3,39

3,18

10,57

1,07

1,47

1,22

3,19

2,10

73,44

77,26

29,59

51,23

8,49

VF5

3,54

3,07

10,81

1,03

1,48

0,70

4,93

2,83

99,92

76,94

30,02

38,09

8,56

VF6

3,77

3,24

11,51

1,08

1,69

0,70

5,35

3,35

119,68

76,94

30,22

28,11

9,72

VF7

4,32

3,81

13,16

1,27

1,97

1,22

4,97

2,94

102,42

77,26

29,80

36,63

13,08

VF8

4,55

4,04

13,86

1,35

1,86

1,22

5,42

3,08

79,52

77,26

29,81

48,08

14,48

www.viacon.pl

8,56 A-inner [m2] 9,72 2,97 13,08 4,71 14,48 5,56

31.

Profiles VC VC

22. 32.

VC

D-w świetle [m]

Obwód-w osi [m]

x [m]

R-w osi [m]

A-w świetle [m]

VC1 VC

1,52[m] D-inner

4,93axis [m] Periphery-in

x0,52 [m]

0,78 [m] R-in axis

1,79[m] A-inner

VC2 VC1 VC3 VC2 VC4 VC3 VC5 VC4 VC6 VC5 VC7 VC6 VC8 VC7 VC9 VC8 VC10 VC9 VC11 VC10 VC12 VC11 VC13 VC12 VC14 VC13 VC15 VC14 VC16 VC15 VC17 VC16 VC18 VC17 VC19 VC18 VC20 VC19 VC21 VC20 VC22 VC21 VC23 VC22 VC24 VC23 VC25 VC24 VC26 VC25 VC27 VC26 VC28 VC27 VC29 VC28 VC30 VC29 VC31 VC30 VC32 VC31 VC33 VC32 VC34 VC33 VC35 VC34 VC36 VC35 VC37 VC36 VC38 VC37 VC39 VC38 VC40 VC39

1,59 1,52 1,67 1,59 1,74 1,67 1,82 1,74 1,89 1,82 1,97 1,89 2,04 1,97 2,12 2,04 2,19 2,12 2,27 2,19 2,34 2,27 2,42 2,34 2,49 2,42 2,57 2,49 2,64 2,57 2,72 2,64 2,79 2,72 2,87 2,79 2,94 2,87 3,02 2,94 3,09 3,02 3,17 3,09 3,24 3,17 3,32 3,24 3,39 3,32 3,46 3,39 3,54 3,46 3,61 3,54 3,69 3,61 3,76 3,69 3,84 3,76 3,90 3,84 3,99 3,90 4,06 3,99 4,14 4,06 4,21 4,14 4,29 4,21 4,36 4,29 4,44 4,36

5,17 4,93 5,40 5,17 5,64 5,40 5,88 5,64 6,11 5,88 6,34 6,11 6,58 6,34 6,81 6,58 7,05 6,81 7,28 7,05 7,52 7,28 7,75 7,52 7,99 7,75 8,22 7,99 8,46 8,22 8,69 8,46 8,93 8,69 9,16 8,93 9,40 9,16 9,63 9,40 9,87 9,63 10,10 9,87 10,34 10,10 10,57 10,34 10,81 10,57 11,04 10,81 11,28 11,04 11,51 11,28 11,75 11,51 11,98 11,75 12,22 11,98 12,45 12,22 12,69 12,45 12,92 12,69 13,16 12,92 13,39 13,16 13,63 13,39 13,86 13,63 14,10 13,86

0,54 0,52 0,57 0,54 0,59 0,57 0,62 0,59 0,64 0,62 0,67 0,64 0,69 0,67 0,72 0,69 0,74 0,72 0,76 0,74 0,79 0,76 0,81 0,79 0,84 0,81 0,86 0,84 0,89 0,86 0,91 0,89 0,94 0,91 0,96 0,94 0,99 0,96 1,01 0,99 1,04 1,01 1,06 1,04 1,09 1,06 1,11 1,09 1,14 1,11 1,16 1,14 1,18 1,16 1,21 1,18 1,23 1,21 1,26 1,23 1,28 1,26 1,31 1,28 1,33 1,31 1,36 1,33 1,38 1,36 1,41 1,38 1,43 1,41 1,46 1,43 1,48 1,46

0,82 0,78 0,86 0,82 0,90 0,86 0,93 0,90 0,97 0,93 1,01 0,97 1,05 1,01 1,08 1,05 1,12 1,08 1,16 1,12 1,20 1,16 1,23 1,20 1,27 1,23 1,31 1,27 1,35 1,31 1,38 1,35 1,42 1,38 1,46 1,42 1,50 1,46 1,53 1,50 1,57 1,53 1,61 1,57 1,64 1,61 1,68 1,64 1,72 1,68 1,76 1,72 1,79 1,76 1,83 1,79 1,87 1,83 1,91 1,87 1,94 1,91 1,98 1,94 2,02 1,98 2,06 2,02 2,09 2,06 2,13 2,09 2,17 2,13 2,21 2,17 2,24 2,21

1,97 1,79 2,16 1,97 2,36 2,16 2,57 2,36 2,79 2,57 3,01 2,79 3,25 3,01 3,49 3,25 3,75 3,49 4,00 3,75 4,27 4,00 4,55 4,27 4,84 4,55 5,14 4,84 5,44 5,14 5,75 5,44 6,08 5,75 6,41 6,08 6,75 6,41 7,10 6,75 7,45 7,10 7,82 7,45 8,19 7,82 8,59 8,19 8,97 8,59 9,37 8,97 9,79 9,37 10,20 9,79 10,64 10,20 11,07 10,64 11,51 11,07 11,97 11,51 12,43 11,97 12,91 12,43 13,38 12,91 13,87 13,38 14,37 13,87 14,88 14,37 15,40 14,88

VC40

4,44

14,10

1,48

2,24

15,40

VC VC VC41 VC42 VC43 VC44 VC45 VC46 VC47 VC48 VC49 VC50 VC51 VC52 VC53 VC54 VC55 VC56 VC57 VC58 VC59 VC60 VC61 VC62 VC63 VC64 VC65 VC66 VC67 VC68 VC69 VC70 VC71 VC72 VC73 VC74 VC75 VC76 VC77 VC78 VC79 VC80

D-w świetle [m]

VC41 D-inner [m]4,51 VC42 VC43 VC44 VC45 VC46 VC47 VC48 VC49 VC50 VC51 VC52 VC53 VC54 VC55 VC56 VC57 VC58 VC59 VC60 VC61 VC62 VC63 VC64 VC65 VC66 VC67 VC68 VC69 VC70 VC71 VC72 VC73 VC74 VC75 VC76 VC77 VC78 VC79 VC80

4,51 4,59 4,66 4,74 4,81 4,89 4,96 5,04 5,11 5,19 5,26 5,33 5,41 5,48 5,56 5,63 5,71 5,78 5,86 5,93 6,01 6,08 6,16 6,23 6,31 6,38 6,46 6,53 6,61 6,68 6,76 6,83 6,91 6,98 7,06 7,13 7,20 7,28 7,35 7,43

4,59 4,66 4,74 4,81 4,89 4,96 5,04 5,11 5,19 5,26 5,33 5,41 5,48 5,56 5,63 5,71 5,78 5,86 5,93 6,01 6,08 6,16 6,23 6,31 6,38 6,46 6,53 6,61 6,68 6,76 6,83 6,91 6,98 7,06 7,13 7,20 7,28 7,35 7,43

Obwód-w osi [m]

Periphery-in axis14,33 [m] 14,33 14,57 14,80 15,04 15,27 15,51 15,74 15,98 16,21 16,45 16,68 16,92 17,15 17,39 17,63 17,86 18,09 18,33 18,56 18,80 19,03 19,27 19,50 19,74 19,97 20,21 20,44 20,68 20,91 21,15 21,38 21,62 21,85 22,09 22,32 22,56 22,79 23,03 23,26 23,50

14,57 14,80 15,04 15,27 15,51 15,74 15,98 16,21 16,45 16,68 16,92 17,15 17,39 17,63 17,86 18,09 18,33 18,56 18,80 19,03 19,27 19,50 19,74 19,97 20,21 20,44 20,68 20,91 21,15 21,38 21,62 21,85 22,09 22,32 22,56 22,79 23,03 23,26 23,50

x [m] x [m] 1,51 1,53 1,55 1,58 1,60 1,63 1,65 1,68 1,70 1,73 1,75 1,78 1,80 1,83 1,85 1,88 1,90 1,93 1,95 1,97 2,00 2,02 2,05 2,07 2,10 2,12 2,15 2,17 2,20 2,22 2,25 2,27 2,30 2,32 2,34 2,37 2,39 2,42 2,44 2,47

R-w osi[m]

1,51

R-in axis[m]2,28

1,53

2,32

1,55 1,58 1,60 1,63 1,65 1,68 1,70 1,73 1,75 1,78 1,80 1,83 1,85 1,88 1,90 1,93 1,95 1,97 2,00 2,02 2,05 2,07 2,10 2,12 2,15 2,17 2,20 2,22 2,25 2,27 2,30 2,32 2,34 2,37 2,39 2,42 2,44 2,47

2,28 2,32 2,36 2,39 2,43 2,47 2,50 2,54 2,58 2,62 2,65 2,69 2,73 2,77 2,80 2,84 2,88 2,92 2,95 2,99 3,03 3,07 3,10 3,14 3,18 3,22 3,25 3,29 3,33 3,37 3,40 3,44 3,48 3,51 3,55 3,59 3,63 3,66 3,70 3,74

2,36 2,39 2,43 2,47 2,50 2,54 2,58 2,62 2,65 2,69 2,73 2,77 2,80 2,84 2,88 2,92 2,95 2,99 3,03 3,07 3,10 3,14 3,18 3,22 3,25 3,29 3,33 3,37 3,40 3,44 3,48 3,51 3,55 3,59 3,63 3,66 3,70 3,74

A-w świetle[m2] A-inner[m2]15,92 15,92 16,45 17,00 17,54 18,11 18,67 19,24 19,84 20,43 21,04 21,65 22,26 22,90 23,53 24,19 24,84 25,50 26,18 26,86 27,56 28,26 28,96 29,69 30,41 31,15 31,89 32,63 33,41 34,17 34,96 35,74 36,53 37,35 38,16 38,99 39,82 40,65 41,51 42,36 43,24

16,45 17,00 17,54 18,11 18,67 19,24 19,84 20,43 21,04 21,65 22,26 22,90 23,53 24,19 24,84 25,50 26,18 26,86 27,56 28,26 28,96 29,69 30,41 31,15 31,89 32,63 33,41 34,17 34,96 35,74 36,53 37,35 38,16 38,99 39,82 40,65 41,51 42,36 43,24

BURIED FLEXIBLE STEEL STRUCTURES

MultiPlate MP200 VE VE

VE VE1VE VE2 VE1 VE3 VE2 VE4 VE3 VE5 VE4 VE6 VE5 VE7 VE6 VE8 VE7 VE9 VE8 VE10 VE9 VE11 VE10 VE12 VE11 VE13 VE12 VE14 VE13 VE15 VE14 VE16 VE15 VE17 VE16 VE18 VE17 VE19 VE18 VE20 VE19 VE21 VE20 VE22 VE21 VE23 VE22 VE24 VE23 VE25 VE24 VE26 VE25 VE27 VE26 VE28 VE27 VE29 VE28 VE30 VE29 VE31 VE30 VE32 VE31 VE33 VE32 VE34 VE33 VE35 VE34 VE35

Si-w świetle [m]

Hi-w świetle [m]

Obwód-w osi [m]

1,52 [m] Si-inner 1,66 1,52 1,93 1,66 2,08 1,93 2,21 2,08 2,51 2,21 2,65 2,51 2,80 2,65 3,09 2,80 3,23 3,09 3,34 3,23 3,53 3,34 3,65 3,53 3,78 3,65 3,96 3,78 4,08 3,96 4,19 4,08 4,36 4,19 4,51 4,36 4,63 4,51 4,78 4,63 4,93 4,78 5,04 4,93 5,19 5,04 5,33 5,19 5,47 5,33 5,61 5,47 5,76 5,61 5,90 5,76 6,05 5,90 6,17 6,05 6,33 6,17 6,46 6,33 6,61 6,46 6,75 6,61

1,68 [m] Hi-inner 1,83 1,68 2,15 1,83 2,31 2,15 2,46 2,31 2,78 2,46 2,93 2,78 3,09 2,93 3,41 3,09 3,56 3,41 3,72 3,56 3,88 3,72 4,03 3,88 4,19 4,03 4,35 4,19 4,50 4,35 4,66 4,50 4,82 4,66 4,98 4,82 5,13 4,98 5,29 5,13 5,45 5,29 5,61 5,45 5,76 5,61 5,92 5,76 6,08 5,92 6,24 6,08 6,39 6,24 6,55 6,39 6,71 6,55 6,86 6,71 7,02 6,86 7,18 7,02 7,34 7,18 7,49 7,34

5,17 axis [m] Periphery-in 5,64 5,17 6,58 5,64 7,05 6,58 7,52 7,05 8,46 7,52 8,93 8,46 9,4 8,93 10,34 9,4 10,81 10,34 11,28 10,81 11,75 11,28 12,22 11,75 12,69 12,22 13,16 12,69 13,63 13,16 14,1 13,63 15,57 14,1 15,04 15,57 15,51 15,04 15,98 15,51 16,45 15,98 16,92 16,45 17,39 16,92 17,86 17,39 18,33 17,86 18,8 18,33 19,27 18,8 19,74 19,27 20,21 19,74 20,68 20,21 21,15 20,68 21,62 21,15 22,09 21,62 22,56 22,09

6,75

7,49

22,56

www.viacon.pl www.viacon.pl

x [m] 0,57 x [m] 0,62 0,57 0,73 0,62 0,78 0,73 0,83 0,78 0,93 0,83 0,99 0,93 1,04 0,99 1,14 1,04 1,19 1,14 1,24 1,19 1,30 1,24 1,35 1,30 1,40 1,35 1,45 1,40 1,50 1,45 1,56 1,50 1,61 1,56 1,66 1,61 1,71 1,66 1,76 1,71 1,81 1,76 1,87 1,81 1,92 1,87 1,97 1,92 2,02 1,97 2,07 2,02 2,13 2,07 2,18 2,13 2,23 2,18 2,28 2,23 2,33 2,28 2,39 2,33 2,44 2,39 2,49 2,44 2,49

R1-w osi [m]

R2-w osi [m]

0,71 R1-in axis [m] 0,76 0,71 0,93 0,76 0,99 0,93 1,06 0,99 1,17 1,06 1,24 1,17 1,30 1,24 1,39 1,30 1,47 1,39 1,59 1,47 1,55 1,59 1,70 1,55 1,77 1,70 1,75 1,77 1,88 1,75 1,99 1,88 2,01 1,99 2,07 2,01 2,18 2,07 2,23 2,18 2,29 2,23 2,39 2,29 2,45 2,39 2,52 2,45 2,58 2,52 2,65 2,58 2,70 2,65 2,78 2,70 2,84 2,78 2,92 2,84 2,99 2,92 3,05 2,99 3,10 3,05 3,18 3,10

0,91 R2-in axis [m] 0,98 0,91 1,20 0,98 1,27 1,20 1,37 1,27 1,49 1,37 1,58 1,49 1,66 1,58 1,80 1,66 1,89 1,80 2,05 1,89 2,03 2,05 2,17 2,03 2,27 2,17 2,27 2,27 2,39 2,27 2,57 2,39 2,57 2,57 2,64 2,57 2,78 2,64 2,85 2,78 2,93 2,85 3,08 2,93 3,15 3,08 3,25 3,15 3,32 3,25 3,43 3,32 3,47 3,43 3,57 3,47 3,63 3,57 3,77 3,63 3,83 3,77 3,94 3,83 3,98 3,94 4,07 3,98

3,18

4,07

W1[0]

W2[0]

76,00 W1[0] 70,40 76,00 101,40 70,40 95,20 101,40 101,40 95,20 80,60 101,40 86,60 80,60 82,80 86,60 67,60 82,80 73,00 67,60 101,40 73,00 60,60 101,40 87,00 60,60 91,00 87,00 61,60 91,00 78,80 61,60 101,40 78,80 80,40 101,40 78,00 80,40 92,80 78,00 90,40 92,80 88,00 90,40 101,40 88,00 98,80 101,40 101,40 98,80 99,00 101,40 101,40 99,00 94,60 101,40 97,00 94,60 94,80 97,00 101,40 94,80 99,20 101,40 101,40 99,20 95,40 101,40 97,40 95,40

104,00 W2[0] 109,60 104,00 78,60 109,60 84,80 78,60 78,60 84,80 99,40 78,60 93,40 99,40 97,20 93,40 112,40 97,20 107,00 112,40 78,60 107,00 119,40 78,60 93,00 119,40 89,00 93,00 118,40 89,00 101,20 118,40 78,60 101,20 99,60 78,60 102,00 99,60 87,20 102,00 89,60 87,20 92,00 89,60 73,60 92,00 81,20 73,60 78,60 81,20 81,00 78,60 78,60 81,00 85,40 78,60 83,00 85,40 85,20 83,00 78,60 85,20 80,80 78,60 78,60 80,80 84,60 78,60 82,60 84,60

97,40

82,60

A-w świetle [m2] 1,96 [m2] A-inner 2,35 1,96 3,23 2,35 3,73 3,23 4,25 3,73 5,42 4,25 6,05 5,42 6,72 6,05 8,17 6,72 8,94 8,17 9,74 8,94 10,60 9,74 11,47 10,60 12,38 11,47 13,34 12,38 14,32 13,34 15,33 14,32 16,39 15,33 17,48 16,39 18,60 17,48 19,76 18,60 20,95 19,76 22,17 20,95 23,44 22,17 24,74 23,44 26,07 24,74 27,44 26,07 28,85 27,44 30,28 28,85 31,76 30,28 33,26 31,76 34,81 33,26 36,38 34,81 38,01 36,38 39,65 38,01 39,65

33. 23

Profiles VG

VG

VG

Si-inner [m]

Hi-inner [m]

Periphery-in axis [m]

x [m]

R1-in axis [m]

R2-in axis [m]

W1[0]

W2[0]

VG1

1,43

1,76

5,17

0,60

0,62

1,01

87,00

93,00

1,94

0,65 x [m] 0,76 0,810,60

0,66 R1-w osi [m] 0,83 0,880,62

1,09 R2-w osi [m] 1,42 1,471,01

81,20 0 W1[ ] 113,60 87,00 107,00

98,80 0 W2[ ] 66,40 93,00 73,00

2,32 A-w świetle[m2] 3,18 3,671,94

VG2

VG

VG3 VG4VG1

5,64 Obwód-w osi [m] 6,58 7,055,17

2,071,57 2,371,80

2,581,92 2,912,25

7,525,64 8,466,58

0,870,65 0,980,76

0,950,66 1,020,83

1,621,09 1,681,42

81,20 113,60 113,60 92,00

98,80 66,40 66,40 88,00

4,192,32 5,353,18

VG7VG4 VG8VG5

2,491,94 2,632,07

3,082,42 3,242,58

8,937,05 9,407,52

1,030,81 1,090,87

1,100,88 1,140,95

1,811,47 1,881,62

107,00 98,20 113,60 94,00

73,00 81,80 66,40 86,00

5,973,67 6,634,19

VG9VG6 VG10VG7 VG11VG8

2,932,37 3,062,49

3,572,91 3,733,08

10,348,46 10,818,93

1,200,98 1,251,03

1,201,02 1,281,10

1,991,68 2,101,81

92,00 78,40 98,20 84,00

88,00 101,60 81,80 96,00

8,075,35 8,835,97

3,122,63 3,352,93

3,903,24 4,073,57

11,289,40 10,34 11,75

1,301,09 1,361,20

1,421,14 1,321,20

2,431,88 2,231,99

94,00 113,60 78,40 71,20

3,433,06 3,553,12

4,233,73 4,393,90

10,81 12,22 11,28 12,69

1,411,25 1,471,30

1,501,28 1,571,42

2,482,10 2,612,43

9,606,63 10,478,07 11,318,83

3,763,35 3,853,43

4,564,07 4,724,23

11,75 13,16 12,22 13,63

1,521,36 1,571,41

1,491,32 1,641,50

2,502,23 2,692,48

84,00 98,60 113,60 102,60 71,20 72,20

86,00 66,40 101,60 108,80 96,00 81,40

12,219,60 10,47 13,19

3,923,55 4,123,76

4,894,39 5,054,56

12,69 14,10 13,16 14,57

1,631,47 1,681,52

1,781,57 1,761,49

3,042,61 2,892,50

98,60 90,00 102,60 113,60 72,20 91,60

66,40 77,40 108,80 107,80 81,40 90,00

4,263,85 4,353,92

5,224,72 5,384,89

13,63 15,04 14,10 15,51

1,741,57 1,791,63

1,811,64 1,931,78

2,962,69 3,213,04

90,00 89,20 113,60 104,60

90,00 90,80 66,40 75,40

4,494,12 4,644,26

5,545,05 5,715,22

14,57 15,98 15,04 16,45

1,851,68 1,901,74

1,981,76 2,031,81

3,282,89 3,352,96

91,60 102,00 89,20 99,60

88,40 78,00 90,80 80,40

4,714,35 4,864,49

5,885,38 6,045,54

15,51 16,92 15,98 17,39

1,961,79 2,011,85

2,131,93 2,191,98

3,653,21 3,703,28

104,60 113,60 102,00 110,80

75,40 66,40 78,00 69,20

4,984,64 5,124,71

6,215,71 6,375,88

16,45 17,86 16,92 18,33

2,061,90 2,121,96

2,252,03 2,302,13

3,853,35 3,903,65

99,60 113,60 113,60 111,00

80,40 66,40 66,40 69,00

5,244,86 5,404,98

6,546,04 6,706,21

17,39 18,80 17,86 19,27

2,172,01 2,232,06

2,372,19 2,402,25

4,053,70 4,023,85

110,80 113,60 113,60 106,40

69,20 66,40 66,40 73,60

5,535,12 5,675,24

6,866,37 7,036,54

18,33 19,74 18,80 20,21

2,282,12 2,342,17

2,472,30 2,522,37

4,163,90 4,234,05

111,00 108,80 113,60 106,80

69,00 71,20 66,40 73,20

5,775,40 5,915,53

7,196,70 7,366,86

19,27 20,68 19,74 21,15

2,392,23 2,442,28

2,612,40 2,662,47

4,464,02 4,514,16

106,40 113,60 108,80 111,40

73,60 66,40 71,20 68,60

6,035,67 6,205,77

7,527,03 7,687,19

20,21 21,62 20,68 22,09

2,502,34 2,552,39

2,732,52 2,762,61

4,664,23 4,624,46

106,80 113,60 113,60 107,20

73,20 66,40 66,40 72,80

VG33

6,325,91 6,03

7,857,36 7,52

21,15 22,56 21,62

2,612,44 2,50

2,832,66 2,73

4,774,51 4,66

111,40 109,40 113,60

68,60 70,60 66,40

VG34

6,20

7,68

22,09

2,55

2,76

4,62

107,20

72,80

37,48

VG35

6,32

7,85

22,56

2,61

2,83

4,77

109,40

70,60

39,09

VG11 VG14 VG12 VG15 VG13 VG16 VG14 VG17 VG15 VG18 VG16 VG19 VG17 VG20 VG18 VG21 VG19 VG22 VG20 VG23 VG21 VG24 VG22 VG25 VG23 VG26 VG24 VG27 VG25 VG28 VG26 VG29 VG27 VG30 VG28 VG31 VG29 VG32 VG30 VG33 VG31 VG34 VG32 VG35

34.

1,92 Hi-w świetle [m] 2,25 2,421,76

VG5VG2 VG6VG3

VG12VG9 VG10 VG13

24.

1,57 Si-w świetle [m] 1,80 1,941,43

A-inner[m2]

77,40 66,40 107,80 88,40

11,31 14,14 12,21 15,10 13,19 16,18 14,14 17,26 15,10 18,34 16,18 19,49 17,26 20,67 18,34 21,85 19,49 23,11 20,67 24,37 21,85 25,70 23,11 27,04 24,37 28,45 25,70 29,86 27,04 31,31 28,45 32,78 29,86 34,31 31,31 35,85 32,78 37,48 34,31 39,09 35,85

BURIED FLEXIBLE STEEL STRUCTURES

MultiPlate MP200 VA

VA

VA VA VA1 VA1 VA2 VA2 VA3 VA3 VA4 VA4 VA5 VA5 VA6 VA6 VA7 VA7 VA8 VA8 VA9 VA9 VA10 VA10 VA11 VA11 VA12 VA12 VA13 VA13 VA14 VA14 VA15 VA15 VA16 VA16 VA17 VA17 VA18 VA18 VA19 VA19 VA20 VA20 VA21 VA21 VA22 VA22 VA23 VA23 VA24 VA24 VA25 VA25 VA26 VA26 VA27 VA27 VA28 VA28 VA29 VA29 VA30 VA30 VA31 VA31 VA32 VA32 VA33 VA33 VA34 VA34 VA35 VA35 VA36 VA36 VA37 VA37 VA38 VA38 VA39 VA39 VA40 VA40 VA41 VA41 VA42 VA42 VA43 VA43 VA44 VA44 VA45 VA45 VA46 VA46 VA47 VA47 VA48 VA48 VA49 VA49 VA50 VA50

Si-inner [m] Si-w świetle [m] 1,70 1,70 1,95 1,95 2,45 2,45 2,95 2,95 2,95 2,95 3,20 3,20 3,20 3,20 3,45 3,45 3,45 3,45 3,70 3,70 3,70 3,70 3,70 3,70 3,95 3,95 3,95 3,95 3,95 3,95 4,20 4,20 4,20 4,20 4,20 4,20 4,45 4,45 4,45 4,45 4,45 4,45 4,45 4,45 4,70 4,70 4,70 4,70 4,70 4,70 4,70 4,70 4,70 4,70 4,95 4,95 4,95 4,95 4,95 4,95 4,95 4,95 4,95 4,95 5,20 5,20 5,20 5,20 5,20 5,20 5,20 5,20 5,20 5,20 5,45 5,45 5,45 5,45 5,45 5,45 5,45 5,45 5,45 5,45 5,70 5,70 5,70 5,70 5,70 5,70 5,70 5,70 5,70 5,70 5,95 5,95 5,95 5,95 5,95 5,95

www.viacon.pl www.viacon.pl

Hi-inner [m] Hi-w świetle [m] 0,82 0,82 0,86 0,86 1,07 1,07 1,28 1,28 1,40 1,40 1,32 1,32 1,45 1,45 1,36 1,36 1,61 1,61 1,53 1,53 1,65 1,65 1,78 1,78 1,56 1,56 1,82 1,82 1,94 1,94 1,73 1,73 1,86 1,86 1,99 1,99 1,77 1,77 1,90 1,90 2,03 2,03 2,15 2,15 1,81 1,81 1,94 1,94 2,07 2,07 2,20 2,20 2,32 2,32 1,98 1,98 2,11 2,11 2,24 2,24 2,36 2,36 2,48 2,48 2,02 2,02 2,15 2,15 2,28 2,28 2,40 2,40 2,53 2,53 2,19 2,19 2,32 2,32 2,45 2,45 2,57 2,57 2,69 2,69 2,22 2,22 2,36 2,36 2,49 2,49 2,61 2,61 2,73 2,73 2,40 2,40 2,53 2,53 2,65 2,65

Periphery-in axis [m] Obwód-w osi [m] 2,70 2,70 2,94 2,94 3,64 3,64 4,35 4,35 4,58 4,58 4,58 4,58 4,82 4,82 4,82 4,82 5,29 5,29 5,29 5,29 5,52 5,52 5,76 5,76 5,52 5,52 5,99 5,99 6,23 6,23 5,99 5,99 6,23 6,23 6,46 6,46 6,23 6,23 6,46 6,46 6,70 6,70 6,93 6,93 6,46 6,46 6,70 6,70 6,93 6,93 7,17 7,17 7,40 7,40 6,93 6,93 7,17 7,17 7,40 7,40 7,64 7,64 7,88 7,88 7,17 7,17 7,40 7,40 7,64 7,64 7,87 7,87 8,11 8,11 7,64 7,64 7,87 7,87 8,11 8,11 8,34 8,34 8,58 8,58 7,87 7,87 8,11 8,11 8,34 8,34 8,58 8,58 8,81 8,81 8,34 8,34 8,58 8,58 8,81 8,81

x [m] x [m] 0,28 0,28 0,30 0,30 0,36 0,36 0,43 0,43 0,47 0,47 0,45 0,45 0,49 0,49 0,46 0,46 0,54 0,54 0,51 0,51 0,56 0,56 0,60 0,60 0,53 0,53 0,61 0,61 0,65 0,65 0,58 0,58 0,63 0,63 0,67 0,67 0,59 0,59 0,64 0,64 0,68 0,68 0,72 0,72 0,61 0,61 0,65 0,65 0,69 0,69 0,73 0,73 0,77 0,77 0,66 0,66 0,71 0,71 0,75 0,75 0,79 0,79 0,83 0,83 0,68 0,68 0,72 0,72 0,76 0,76 0,80 0,80 0,84 0,84 0,73 0,73 0,78 0,78 0,82 0,82 0,86 0,86 0,90 0,90 0,74 0,74 0,79 0,79 0,83 0,83 0,87 0,87 0,91 0,91 0,80 0,80 0,84 0,84 0,89 0,89

R1-in axis [m] R1-w osi [m] 0,88 0,88 1,01 1,01 1,26 1,26 1,51 1,51 1,50 1,50 1,65 1,65 1,63 1,63 1,80 1,80 1,75 1,75 1,91 1,91 1,88 1,88 1,88 1,88 2,05 2,05 2,00 2,00 2,00 2,00 2,16 2,16 2,14 2,14 2,13 2,13 2,30 2,30 2,27 2,27 2,26 2,26 2,25 2,25 2,45 2,45 2,41 2,41 2,39 2,39 2,38 2,38 2,38 2,38 2,56 2,56 2,53 2,53 2,51 2,51 2,50 2,50 2,50 2,50 2,71 2,71 2,67 2,67 2,65 2,65 2,63 2,63 2,63 2,63 2,81 2,81 2,78 2,78 2,76 2,76 2,75 2,75 2,75 2,75 2,96 2,96 2,92 2,92 2,90 2,90 2,88 2,88 2,88 2,88 3,07 3,07 3,04 3,04 3,02 3,02

W1[0] W1[0] 177,07 177,07 167,44 167,44 165,79 165,79 164,68 164,68 174,97 174,97 158,94 158,94 169,20 169,20 153,66 153,66 172,86 172,86 158,93 158,93 167,89 167,89 175,90 175,90 154,32 154,32 171,25 171,25 178,47 178,47 158,91 158,91 166,88 166,88 174,09 174,09 154,84 154,84 162,77 162,77 169,96 169,96 176,52 176,52 151,00 151,00 158,96 158,96 166,07 166,07 172,68 172,68 178,63 178,63 155,24 155,24 162,39 162,39 168,92 168,92 174,93 174,93 180,49 180,49 151,78 151,78 158,90 158,90 165,41 165,41 171,41 171,41 177,02 177,02 155,58 155,58 162,07 162,07 168,06 168,06 173,60 173,60 178,76 178,76 152,42 152,42 158,89 158,89 164,86 164,86 170,39 170,39 175,55 175,55 155,90 155,90 161,81 161,81 167,33 167,33

A-inner [m2] A-w świetle [m2] 1,10 1,10 1,30 1,30 2,01 2,01 2,88 2,88 3,23 3,23 3,18 3,18 3,56 3,56 3,49 3,49 4,31 4,31 4,25 4,25 4,69 4,69 5,13 5,13 4,61 4,61 5,55 5,55 6,02 6,02 5,48 5,48 5,99 5,99 6,43 6,43 5,88 5,88 6,42 6,42 6,95 6,95 7,48 7,48 6,30 6,30 6,87 6,87 7,43 7,43 7,99 7,99 8,54 8,54 7,32 7,32 7,91 7,91 8,50 8,50 9,09 9,09 9,68 9,68 7,78 7,78 8,41 8,41 9,03 9,03 9,65 9,65 10,26 10,26 8,91 8,91 9,56 9,56 10,22 10,22 10,86 10,86 11,50 11,50 9,42 9,42 10,10 10,10 10,79 10,79 11,47 11,47 12,14 12,14 10,66 10,66 11,37 11,37 12,08 12,08

25. 35.

Profiles VA

Si-w świetle [m]

Hi-w świetle [m]

Obwód-w osi [m]

x [m]

R1-w osi [m]

W1[0]

VA50

5,95

2,65

8,81

0,89

3,02

167,33

12,08

VA51

5,95 Si-inner [m] 5,95 5,95 6,20 5,95 6,20 5,95 6,20 6,20 6,20 6,20 6,20 6,20 6,20 6,20 6,45 6,20 6,45 6,20 6,45 6,45 6,45 6,45 6,45 6,45 6,45 6,45 6,70 6,45 6,70 6,45 6,70 6,70 6,70 6,70 6,70 6,70 6,70 6,70 6,95 6,70 6,95 6,70 6,95 6,95 6,95 6,95 6,95 6,95 6,95 6,95 6,95 6,95 7,20 6,95 7,20 6,95 7,20 7,20 7,20 7,20 7,20 7,20 7,20 7,20 7,45 7,20 7,45 7,20 7,45 7,45 7,45 7,45 7,45 7,45 7,45 7,45 7,45 7,45 7,70 7,45 7,70 7,45 7,70 7,70 7,70 7,70 7,70 7,70 7,70 7,70 7,70 7,70 7,95 7,70 7,95 7,70 7,95 7,95 7,95 7,95 7,95 7,95 7,95 7,95 7,95 7,95 8,20 7,95 8,20 7,95 8,20 8,20 8,20 8,20 8,20 8,20 8,20 8,20

2,78 Hi-inner [m] 2,90 2,65 2,43 2,78 2,57 2,90 2,69 2,43 2,82 2,57 2,94 2,69 3,06 2,82 2,47 2,94 2,60 3,06 2,73 2,47 2,86 2,60 2,99 2,73 3,11 2,86 2,64 2,99 2,77 3,11 2,90 2,64 3,03 2,77 3,15 2,90 3,27 3,03 2,67 3,15 2,81 3,27 2,94 2,67 3,07 2,81 3,19 2,94 3,32 3,07 3,44 3,19 2,85 3,32 2,98 3,44 3,11 2,85 3,24 2,98 3,36 3,11 3,48 3,24 2,88 3,36 3,02 3,48 3,16 2,88 3,28 3,02 3,40 3,16 3,53 3,28 3,64 3,40 3,05 3,53 3,19 3,64 3,32 3,05 3,46 3,19 3,57 3,32 3,69 3,46 3,81 3,57 3,09 3,69 3,22 3,81 3,36 3,09 3,49 3,22 3,61 3,36 3,73 3,49 3,85 3,61 3,26 3,73 3,40 3,85 3,53 3,26 3,66 3,40 3,78 3,53 3,90 3,66

9,05 Periphery-in axis [m] 9,28 8,81 8,58 9,05 8,81 9,28 9,05 8,58 9,28 8,81 9,52 9,05 9,75 9,28 8,81 9,52 9,05 9,75 9,28 8,81 9,52 9,05 9,75 9,28 9,99 9,52 9,28 9,75 9,52 9,99 9,75 9,28 9,99 9,52 10,22 9,75 10,46 9,99 9,52 10,22 9,75 10,46 9,99 9,52 10,22 9,75 10,46 9,99 10,69 10,22 10,93 10,46 9,99 10,69 10,22 10,93 10,46 9,99 10,69 10,22 10,93 10,46 11,16 10,69 10,22 10,93 10,46 11,16 10,69 10,22 10,93 10,46 11,16 10,69 11,40 10,93 11,63 11,16 10,70 11,40 11,03 11,63 11,16 10,70 11,40 11,03 11,63 11,16 11,87 11,40 12,10 11,63 10,93 11,87 11,16 12,10 11,40 10,93 11,63 11,16 11,87 11,40 12,10 11,63 12,34 11,87 11,40 12,10 11,63 12,34 11,87 11,40 12,10 11,63 12,34 11,87 12,57 12,10

172,47 W1[0] 177,29 167,33 152,95 172,47 158,92 177,29 164,39 152,95 169,53 158,92 174,34 164,39 178,85 169,53 150,17 174,34 156,09 178,85 161,58 150,17 166,71 156,09 171,55 161,58 176,06 166,71 153,40 171,55 158,88 176,06 163,99 153,40 168,79 158,88 173,29 163,99 177,54 168,79 150,82 173,29 156,28 177,54 161,39 150,82 166,17 156,28 170,67 161,39 174,91 166,17 178,92 170,67 153,79 174,91 158,88 178,92 163,65 153,79 168,14 158,88 172,38 163,65 176,39 168,14 151,38 172,38 156,46 176,39 161,26 151,38 165,70 156,46 169,93 161,26 173,94 165,70 177,74 169,93 154,12 173,94 152,90 177,74 163,35 154,12 167,61 152,90 171,57 163,35 175,37 167,61 178,78 171,57 151,57 175,37 156,61 178,78 161,07 151,57 165,29 156,61 169,29 161,07 173,08 165,29 176,69 169,29 154,41 173,08 158,87 176,69 163,08 154,41 167,07 158,87 170,86 163,08 174,47 167,07

12,78 A-inner [m2] 13,48 12,08 11,21 12,78 11,96 13,48 12,70 11,21 13,44 11,96 14,17 12,70 14,90 13,44 11,77 14,17 12,56 14,90 13,33 11,77 14,10 12,56 14,87 13,33 15,63 14,10 13,16 14,87 13,97 15,63 14,77 13,16 15,57 13,97 16,35 14,77 17,15 15,57 13,76 16,35 14,61 17,15 15,44 13,76 16,27 14,61 17,10 15,44 17,92 16,27 18,74 17,10 15,27 17,92 16,13 18,74 16,99 15,27 17,85 16,13 18,71 16,99 19,55 17,85 15,93 18,71 16,82 19,55 17,72 15,93 18,61 16,82 19,49 17,72 20,37 18,61 21,25 19,49 17,53 20,37 18,46 21,25 19,37 17,53 20,29 18,46 21,20 19,37 22,11 20,29 23,02 21,20 18,23 22,11 19,19 23,02 20,15 18,23 21,10 19,19 22,04 20,15 22,98 21,10 23,91 22,04 19,94 22,98 20,93 23,91 21,91 19,94 22,89 20,93 23,86 21,91 24,82 22,89

VA109

8,20

3,78

12,34

1,26

4,14

170,86

23,86

VA110

8,20

3,90

12,57

1,30

4,13

174,47

24,82

VA

VA52 VA50 VA53 VA51 VA54 VA52 VA55 VA53 VA56 VA54 VA57 VA55 VA58 VA56 VA59 VA57 VA60 VA58 VA61 VA59 VA62 VA60 VA63 VA61 VA64 VA62 VA65 VA63 VA66 VA64 VA67 VA65 VA68 VA66 VA69 VA67 VA70 VA68 VA71 VA69 VA72 VA70 VA73 VA71 VA74 VA72 VA75 VA73 VA76 VA74 VA77 VA75 VA78 VA76 VA79 VA77 VA80 VA78 VA81 VA79 VA82 VA80 VA83 VA81 VA84 VA82 VA85 VA83 VA86 VA84 VA87 VA85 VA88 VA86 VA89 VA87 VA90 VA88 VA91 VA89 VA92 VA90 VA93 VA91 VA94 VA92 VA95 VA93 VA96 VA94 VA97 VA95 VA98 VA96 VA99 VA97 VA100 VA98 VA101 VA99 VA102 VA100 VA103 VA101 VA104 VA102 VA105 VA103 VA106 VA104 VA107 VA105 VA108 VA106 VA109 VA107 VA110 VA108

36.

0,93 x [m] 0,97 0,89 0,81 0,93 0,86 0,97 0,90 0,81 0,94 0,86 0,98 0,90 1,02 0,94 0,82 0,98 0,87 1,02 0,91 0,82 0,95 0,87 1,00 0,91 1,04 0,95 0,88 1,00 0,92 1,04 0,97 0,88 1,01 0,92 1,05 0,97 1,09 1,01 0,89 1,05 0,94 1,09 0,98 0,89 1,02 0,94 1,06 0,98 1,10 1,02 1,14 1,06 0,95 1,10 0,99 1,14 1,04 0,95 1,08 0,99 1,12 1,04 1,16 1,08 0,96 1,12 1,01 1,16 1,05 0,96 1,09 1,01 1,13 1,05 1,17 1,09 1,21 1,13 1,02 1,17 1,06 1,21 1,10 1,02 1,15 1,06 1,19 1,10 1,23 1,15 1,27 1,19 1,03 1,23 1,07 1,27 1,12 1,03 1,16 1,07 1,20 1,12 1,24 1,16 1,28 1,20 1,09 1,24 1,13 1,28 1,17 1,09 1,22 1,13 1,26 1,17 1,30 1,22

3,01 R1-in axis [m] 3,00 3,02 3,21 3,01 3,18 3,00 3,15 3,21 3,14 3,18 3,13 3,15 3,13 3,14 3,36 3,13 3,32 3,13 3,29 3,36 3,27 3,32 3,26 3,29 3,25 3,27 3,47 3,26 3,43 3,25 3,41 3,47 3,39 3,43 3,38 3,41 3,38 3,39 3,62 3,38 3,58 3,38 3,55 3,62 3,52 3,58 3,51 3,55 3,50 3,52 3,50 3,51 3,72 3,50 3,69 3,50 3,66 3,72 3,64 3,69 3,63 3,66 3,63 3,64 3,87 3,63 3,83 3,63 3,80 3,87 3,78 3,83 3,76 3,80 3,75 3,78 3,75 3,76 3,98 3,75 3,94 3,75 3,92 3,98 3,90 3,94 3,88 3,92 3,88 3,90 3,88 3,88 4,12 3,88 4,08 3,88 4,05 4,12 4,03 4,08 4,02 4,05 4,01 4,03 4,00 4,02 4,23 4,01 4,20 4,00 4,17 4,23 4,15 4,20 4,14 4,17 4,13 4,15

A-w świetle [m2]

BURIED FLEXIBLE STEEL STRUCTURES

MultiPlate MP200 VA

Si-w świetle [m]

Hi-w świetle [m]

Obwód-w osi [m]

x [m]

R1-w osi [m]

W1[0]

VA111

8,20

4,02

12,81

1,34

4,13

177,90

25,78

152,29 0 W1[ ] 156,74 177,90 160,94 152,29 164,92 156,74 168,71 160,94 172,31 164,92 175,78 168,71 179,03 172,31 150,24 175,78 154,67 179,03 158,87 150,24 162,84 154,67 166,62 158,87 170,22 162,84 173,65 166,62 176,94 170,22 152,67 173,65 156,86 176,94 160,83 152,67 164,60 156,86 168,19 160,83 171,62 164,60 174,90 168,19 178,04 171,62 150,73 174,90 154,90 178,04 158,89 150,73 162,63 154,90 166,22 158,89 169,65 162,63 172,95 166,22 176,06 169,65 179,07 172,95 153,01 176,06 156,96 179,07 160,72 153,01 164,30 156,96 167,73 160,72 171,00 164,30 174,14 167,73 177,14 171,00 180,03 174,14 151,16 177,14 155,11 180,03 158,86 151,16 162,44 155,11 165,86 158,86 169,13 162,44 172,26 165,86 175,27 169,13 178,16 172,26 153,31 175,27 157,05 178,16 160,63 153,31 164,07 157,05 167,31 160,63 170,44 164,07 173,44 167,31 176,33 170,44

20,69 A-inner [m2] 21,72 25,78 22,73 20,69 23,74 21,72 24,74 22,73 25,74 23,74 26,74 24,74 27,74 25,74 21,45 26,74 22,52 27,74 23,50 21,45 24,60 22,52 25,64 23,50 26,67 24,60 27,69 25,64 28,72 26,67 23,32 27,69 24,40 28,72 25,47 23,32 26,55 24,40 27,61 25,47 28,66 26,55 29,72 27,61 30,77 28,66 24,13 29,72 25,25 30,77 26,35 24,13 27,45 25,25 28,54 26,35 29,63 27,45 30,73 28,54 31,80 29,63 32,89 30,73 26,09 31,80 27,23 32,89 28,37 26,09 29,50 27,23 30,62 28,37 31,73 29,50 32,86 30,62 33,96 31,73 35,08 32,86 26,95 33,96 28,13 35,08 29,29 26,95 30,45 28,13 31,61 29,29 32,76 30,45 33,91 31,61 35,06 32,76 36,19 33,91 29,02 35,06 30,23 36,19 31,42 29,02 32,61 30,23 33,79 31,42 34,97 32,61 36,14 33,79 37,32 34,97

4,38 R1-in axis [m] 4,34 4,13 4,31 4,38 4,29 4,34 4,27 4,31 4,26 4,29 4,25 4,27 4,25 4,26 4,53 4,25 4,48 4,25 4,45 4,53 4,42 4,48 4,40 4,45 4,39 4,42 4,38 4,40 4,38 4,39 4,63 4,38 4,59 4,38 4,56 4,63 4,54 4,59 4,52 4,56 4,51 4,54 4,50 4,52 4,50 4,51 4,78 4,50 4,74 4,50 4,70 4,78 4,68 4,74 4,66 4,70 4,64 4,68 4,63 4,66 4,63 4,64 4,63 4,63 4,88 4,63 4,85 4,63 4,82 4,88 4,79 4,85 4,78 4,82 4,76 4,79 4,76 4,78 4,75 4,76 4,75 4,76 5,03 4,75 4,99 4,75 4,96 5,03 4,93 4,99 4,91 4,96 4,90 4,93 4,89 4,91 4,88 4,90 4,88 4,89 5,14 4,88 5,10 4,88 5,07 5,14 5,05 5,10 5,03 5,07 5,02 5,05 5,01 5,03 5,00 5,02

A-w świetle [m2]

8,45 Si-inner [m] 8,45 8,20 8,45 8,45 8,45 8,45 8,45 8,45 8,45 8,45 8,45 8,45 8,45 8,45 8,70 8,45 8,70 8,45 8,70 8,70 8,70 8,70 8,70 8,70 8,70 8,70 8,70 8,70 8,70 8,70 8,95 8,70 8,95 8,70 8,95 8,95 8,95 8,95 8,95 8,95 8,95 8,95 8,95 8,95 8,95 8,95 9,20 8,95 9,20 8,95 9,20 9,20 9,20 9,20 9,20 9,20 9,20 9,20 9,20 9,20 9,20 9,20 9,20 9,20 9,45 9,20 9,45 9,20 9,45 9,45 9,45 9,45 9,45 9,45 9,45 9,45 9,45 9,45 9,45 9,45 9,45 9,45 9,70 9,45 9,70 9,45 9,70 9,70 9,70 9,70 9,70 9,70 9,70 9,70 9,70 9,70 9,70 9,70 9,70 9,70 9,95 9,70 9,95 9,70 9,95 9,95 9,95 9,95 9,95 9,95 9,95 9,95 9,95 9,95 9,95 9,95

3,30 Hi-inner [m] 3,43 4,02 3,56 3,30 3,69 3,43 3,82 3,56 3,94 3,69 4,06 3,82 4,18 3,94 3,33 4,06 3,47 4,18 3,60 3,33 3,67 3,47 3,86 3,60 3,99 3,67 4,11 3,86 4,23 3,99 3,51 4,11 3,64 4,23 3,77 3,51 3,90 3,64 4,03 3,77 4,16 3,90 4,27 4,03 4,39 4,16 3,54 4,27 3,68 4,39 3,81 3,54 3,94 3,68 4,07 3,81 4,19 3,94 4,32 4,07 4,44 4,19 4,56 4,32 3,71 4,44 3,85 4,56 3,98 3,71 4,11 3,85 4,23 3,98 4,36 4,11 4,48 4,23 4,60 4,36 4,72 4,48 3,75 4,60 3,88 4,72 4,02 3,75 4,15 3,88 4,28 4,02 4,40 4,15 4,52 4,28 4,65 4,40 4,77 4,52 3,92 4,65 4,06 4,77 4,19 3,92 4,32 4,06 4,44 4,19 4,57 4,32 4,69 4,44 4,81 4,57

11,63 Periphery-in axis [m] 11,87 12,81 12,10 11,63 12,34 11,87 12,57 12,10 12,81 12,34 13,04 12,57 13,28 12,81 11,87 13,04 11,90 13,28 12,34 11,87 12,57 11,90 12,81 12,34 13,05 12,57 13,28 12,81 13,51 13,05 12,34 13,28 12,57 13,51 12,81 12,34 13,05 12,57 13,28 12,81 13,51 13,05 13,75 13,28 13,98 13,51 12,57 13,75 12,81 13,98 13,04 12,57 13,28 12,81 13,51 13,04 13,75 13,28 13,98 13,51 14,22 13,75 14,45 13,98 13,04 14,22 13,28 14,45 13,51 13,04 13,75 13,28 13,98 13,51 14,22 13,75 14,45 13,98 14,69 14,22 14,93 14,45 13,28 14,69 13,51 14,93 13,75 13,28 13,98 13,51 14,22 13,75 14,46 13,98 14,69 14,22 14,93 14,46 15,16 14,69 13,75 14,93 13,98 15,16 14,22 13,75 14,45 13,98 14,69 14,22 14,92 14,45 15,16 14,69 15,39 14,92

VA169

9,95

4,69

15,16

1,56

5,01

173,44

36,14

VA170

9,95

4,81

15,39

1,60

5,00

176,33

37,32

VA112 VA VA113 VA111 VA114 VA112 VA115 VA113 VA116 VA114 VA117 VA115 VA118 VA116 VA119 VA117 VA120 VA118 VA121 VA119 VA122 VA120 VA123 VA121 VA124 VA122 VA125 VA123 VA126 VA124 VA127 VA125 VA128 VA126 VA129 VA127 VA130 VA128 VA131 VA129 VA132 VA130 VA133 VA131 VA134 VA132 VA135 VA133 VA136 VA134 VA137 VA135 VA138 VA136 VA139 VA137 VA140 VA138 VA141 VA139 VA142 VA140 VA143 VA141 VA144 VA142 VA145 VA143 VA146 VA144 VA147 VA145 VA148 VA146 VA149 VA147 VA150 VA148 VA151 VA149 VA152 VA150 VA153 VA151 VA154 VA152 VA155 VA153 VA156 VA154 VA157 VA155 VA158 VA156 VA159 VA157 VA160 VA158 VA161 VA159 VA162 VA160 VA163 VA161 VA164 VA162 VA165 VA163 VA166 VA164 VA167 VA165 VA168 VA166 VA169 VA167 VA170 VA168

www.viacon.pl

1,10 x [m] 1,14 1,34 1,19 1,10 1,23 1,14 1,27 1,19 1,31 1,23 1,35 1,27 1,39 1,31 1,11 1,35 1,15 1,39 1,20 1,11 1,24 1,15 1,28 1,20 1,33 1,24 1,37 1,28 1,41 1,33 1,17 1,37 1,21 1,41 1,25 1,17 1,30 1,21 1,34 1,25 1,38 1,30 1,42 1,34 1,46 1,38 1,18 1,42 1,22 1,46 1,27 1,18 1,31 1,22 1,35 1,27 1,39 1,31 1,43 1,35 1,47 1,39 1,51 1,43 1,24 1,47 1,28 1,51 1,32 1,24 1,37 1,28 1,41 1,32 1,45 1,37 1,49 1,41 1,53 1,45 1,57 1,49 1,25 1,53 1,29 1,57 1,34 1,25 1,38 1,29 1,42 1,34 1,46 1,38 1,50 1,42 1,54 1,46 1,58 1,50 1,30 1,54 1,35 1,58 1,39 1,30 1,43 1,35 1,48 1,39 1,52 1,43 1,56 1,48 1,60 1,52

37.

Profiles VS VS

x [m]

R1-w osi [m]

R2-w osi [m]

W1[0]

W2[0]

A-w świetle [m2]

2,34

8,93

0,79

2,02

0,94

80,00

100,00

5,83

2,57

10,34

0,87

2,52

0,94

80,00

100,00

7,67

3,02

12,22

1,01

3,03

1,08

80,00

100,00

10,72

Si-w świetle [m]

Hi-w świetle [m]

VS1

3,22

VS2

3,87

VS3

4,61

VS4

38. 28.

Obwód-w osi [m]

VS

4,83

3,10

80,00

100,00

11,49

W1[080,00 ]

0 W2[100,00 ]

A-inner 12,29 [m2]

1,48 0,94 1,48 0,94 1,48 1,08 1,48 1,08 1,48 1,08 1,61 1,48 1,61 1,48 1,61 1,48 1,61 1,48 2,02 1,48 2,02 1,61 2,02 1,61 2,02 1,61 2,02 1,61 2,02 2,02 2,02 2,02 2,42 2,02 2,42 2,02 2,42 2,02 2,42 2,02 2,56 2,02 2,56 2,42 2,56 2,42 2,69 2,42 2,69 2,42

80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00

100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00

16,67 5,83 17,64 7,67 18,65 10,72 19,67 11,49 20,72 12,29 23,25 16,67 24,39 17,64 25,55 18,65 26,74 19,67 33,04 20,72 34,40 23,25 35,79 24,39 37,21 25,55 38,64 26,74 40,10 33,04 41,58 34,40 49,37 35,79 51,03 37,21 52,72 38,64 54,43 40,10 58,49 41,58 60,29 49,37 62,12 51,03 66,44 52,72 68,36 54,43

6,90

2,56

80,00

100,00

58,49

7,07

2,56

80,00

100,00

60,29

2,41

7,24

2,56

80,00

100,00

62,12

30,08

2,50

7,40

2,69

80,00

100,00

66,44

30,55

2,53

7,57

2,69

80,00

100,00

68,36

12,69

1,04

3,20

VS VS5

Si-inner5,05 [m]

Hi-inner 3,17 [m]

VS1

VS6

VS2

VS7

VS3

VS8

VS9 VS4 VS10 VS5 VS11 VS6 VS12 VS7 VS13 VS8 VS14 VS9 VS15 VS10 VS16 VS11 VS17 VS12 VS18 VS13 VS19 VS14 VS20 VS15 VS21 VS16 VS22 VS17 VS23 VS18 VS24 VS19 VS25 VS20 VS26 VS21 VS27 VS22 VS28 VS23 VS29 VS24 VS30 VS25

5,55 3,22 5,77 3,87 5,98 4,61 6,20 4,83 6,42 5,05 6,73 5,55 6,94 5,77 7,16 5,98 7,38 6,20 7,88 6,42 8,10 6,73 8,31 6,94 8,53 7,16 8,75 7,38 8,96 7,88 9,18 8,10 9,69 8,31 9,90 8,53 10,12 8,75 10,33 8,96 10,65 9,18 10,86 9,69 11,08 9,90 11,39 10,12 11,61 10,33

3,87 2,34 3,95 2,57 4,03 3,02 4,11 3,10 4,19 3,17 4,47 3,87 4,55 3,95 4,63 4,03 4,71 4,11 5,41 4,19 5,48 4,47 5,56 4,55 5,64 4,63 5,72 4,71 5,80 5,41 5,88 5,48 6,58 5,56 6,65 5,64 6,73 5,72 6,81 5,80 7,10 5,88 7,18 6,58 7,25 6,65 7,54 6,73 7,62 6,81

15,04 8,93 15,51 10,34 15,98 12,22 16,45 12,69 16,92 13,16 17,86 15,04 18,32 15,51 18,80 15,98 19,32 16,45 21,15 16,92 21,62 17,86 22,07 18,32 22,56 18,80 23,03 19,32 23,50 21,15 23,97 21,62 25,86 22,07 26,32 22,56 26,79 23,03 27,26 23,50 28,20 23,97 28,67 25,86 29,14 26,32 30,08 26,79 30,55 27,26

1,29 0,79 1,32 0,87 1,35 1,01 1,37 1,04 1,40 1,06 1,49 1,29 1,52 1,32 1,54 1,35 1,57 1,37 1,80 1,40 1,83 1,49 1,85 1,52 1,88 1,54 1,90 1,57 1,93 1,80 1,96 1,83 2,19 1,85 2,21 1,88 2,24 1,90 2,26 1,93 2,36 1,96 2,38 2,19 2,41 2,21 2,50 2,24 2,53 2,26

3,53 2,02 3,70 2,52 3,87 3,03 4,04 3,20 4,21 3,37 4,38 3,53 5,54 3,70 4,71 3,87 4,98 4,04 5,05 4,21 5,22 4,38 5,38 5,54 5,55 4,71 5,72 4,98 5,89 5,05 6,06 5,22 6,23 5,38 6,39 5,55 6,56 5,72 6,73 5,89 6,90 6,06 7,07 6,23 7,24 6,39 7,40 6,56 7,57 6,73

VS26

10,65

7,10

28,20

2,36

VS27

10,86

7,18

28,67

2,38

VS28

11,08

7,25

29,14

VS29

11,39

7,54

VS30

11,61

7,62

Periphery-in13,16 axis [m]

x [m]1,06

R1-in axis3,37 [m]

1,08 R2-in axis1,08 [m]

BURIED FLEXIBLE STEEL STRUCTURES

MultiPlate MP200 VB VB

Hi-w świetle [m]

Obwód-w osi [m]

x [m]

R1-w osi [m]

R2-w osi [m]

W1[0]

W2[0]

A-w świetle [m2]

VB1

3,20

1,34

4,82

0,45

2,02

0,92

80,00

62,00

3,48

VB2

3,85

1,46

5,52

0,49

2,52

0,92

80,00

62,00

4,52

VB3

4,50

1,58

6,23

0,53

3,03

0,92

80,00

62,00

5,66

VB4

4,72

1,62

6,46

0,54

3,20

0,92

80,00

62,00

W1[0] 80,00

W2[0] 62,00

2 A-inner 10,03 [m ]

VB

VB5VB

Si-w świetle [m]

Si-inner [m] 5,40

Hi-inner [m] 2,29

Periphery-in 8,11 axis [m]

x [m] 0,77

R1-in 3,37axis [m]

R2-in 1,57 axis [m]

6,06

VB6VB1 VB7VB2

5,62 3,20 5,83 3,85

2,33 1,34 2,37 1,46

8,34 4,82 8,58 5,52

0,78 0,45 0,79 0,49

3,53 2,02 3,70 2,52

1,57 0,92 1,57 0,92

80,00 80,00 80,00 80,00

62,00 62,00 62,00 62,00

10,59 3,48 11,17 4,52

VB8VB3 VB9VB4

6,05 4,50 6,27 4,72

2,41 1,58 2,45 1,62

8,81 6,23 9,05 6,46

0,80 0,53 0,82 0,54

3,87 3,03 4,04 3,20

1,57 0,92 1,57 0,92

80,00 80,00 80,00 80,00

62,00 62,00 62,00 62,00

11,76 5,66 12,36 6,06

VB10 VB5 VB11 VB6

6,48 5,40 6,70 5,62

2,49 2,29 2,53 2,33

9,28 8,11 9,52 8,34

0,83 0,77 0,84 0,78

4,21 3,37 4,38 3,53

1,57 1,57 1,57 1,57

80,00 80,00 80,00 80,00

62,00 62,00 62,00 62,00

12,97 10,03 13,59 10,59

VB12 VB7 VB13 VB8

7,07 5,83 7,29 6,05

2,78 2,37 2,82 2,41

10,22 8,58 10,46 8,81

0,93 0,79 0,94 0,80

4,54 3,70 4,71 3,87

1,79 1,57 1,79 1,57

80,00 80,00 80,00 80,00

62,00 62,00 62,00 62,00

15,83 11,17 16,52 11,76

VB14 VB9 VB15 VB10

7,50 6,27 7,72 6,48

2,86 2,45 2,90 2,49

10,69 9,05 10,93 9,28

0,95 0,82 0,97 0,83

4,88 4,04 5,05 4,21

1,79 1,57 1,79 1,57

80,00 80,00 80,00 80,00

62,00 62,00 62,00 62,00

17,22 12,36 17,94 12,97

VB16 VB11 VB17 VB12

7,94 6,70 8,15 7,07

2,94 2,53 2,97 2,78

11,18 9,52 11,38 10,22

0,98 0,84 0,99 0,93

5,22 4,38 5,38 4,54

1,79 1,57 1,79 1,79

80,00 80,00 80,00 80,00

62,00 62,00 62,00 62,00

18,66 13,59 19,40 15,83

VB18 VB13 VB19 VB14

8,37 7,29 9,05 7,50

3,01 2,82 3,69 2,86

11,63 10,46 13,28 10,69

1,00 0,94 1,23 0,95

5,55 4,71 5,72 4,88

1,79 1,79 2,44 1,79

80,00 80,00 80,00 80,00

62,00 62,00 62,00 62,00

20,15 16,52 26,99 17,22

VB20 VB15 VB21 VB16

9,27 7,72 9,48 7,94

3,73 2,90 3,77 2,94

13,51 10,93 13,75 11,16

1,24 0,97 1,25 0,98

5,89 5,05 6,06 5,22

2,44 1,79 2,44 1,79

80,00 80,00 80,00 80,00

62,00 62,00 62,00 62,00

27,90 17,94 28,82 18,66

VB22 VB17 VB23 VB18

9,70 8,15 9,92 8,37

3,81 2,97 3,85 3,01

13,98 11,40 14,22 11,63

1,27 0,99 1,28 1,00

6,23 5,38 6,39 5,55

2,44 1,79 2,44 1,79

80,00 80,00 80,00 80,00

62,00 62,00 62,00 62,00

29,76 19,40 30,70 20,15

VB24 VB19 VB25 VB20

10,13 9,05 10,35 9,27

3,88 3,69 3,92 3,73

14,45 13,28 14,69 13,51

1,29 1,23 1,31 1,24

6,56 5,72 6,73 5,89

2,44 2,44 2,44 2,44

80,00 80,00 80,00 80,00

62,00 62,00 62,00 62,00

31,66 26,99 32,63 27,90

VB26 VB21 VB27 VB22

10,72 9,48 10,94 9,70

4,18 3,77 4,21 3,81

15,39 13,75 15,63 13,98

1,39 1,25 1,40 1,27

6,90 6,06 7,07 6,23

2,66 2,44 2,66 2,44

80,00 80,00 80,00 80,00

62,00 62,00 62,00 62,00

36,05 28,82 37,09 29,76

VB28 VB23 VB29 VB24

11,15 9,92 11,37 10,13

4,25 3,85 4,29 3,88

15,86 14,22 16,10 14,45

1,41 1,28 1,43 1,29

7,24 6,39 7,40 6,56

2,66 2,44 2,66 2,44

80,00 80,00 80,00 80,00

62,00 62,00 62,00 62,00

38,14 30,70 39,20 31,66

VB30 VB25

11,59 10,35

4,33 3,92

16,33 14,69

1,44 1,31

7,57 6,73

2,66 2,44

80,00 80,00

62,00 62,00

40,57 32,63

VB26

10,72

4,18

15,39

1,39

6,90

2,66

80,00

62,00

36,05

VB27

10,94

4,21

15,63

1,40

7,07

2,66

80,00

62,00

37,09

VB28

11,15

4,25

15,86

1,41

7,24

2,66

80,00

62,00

38,14

VB29

11,37

4,29

16,10

1,43

7,40

2,66

80,00

62,00

39,20

VB30

11,59

4,33

16,33

1,44

7,57

2,66

80,00

62,00

40,57

www.viacon.pl www.viacon.pl

39. 29.

Profiles VBL VBL

VBL

S1-w osi [m]

Si-w świetle [m]

Hi-w świetle [m]

Obwód-w osi [m]

x [m]

Rt-w osi [m]

Rc-w osi [m]

Wt[0]

Wc[0]

VBL1

5,67

5,70

2,00

7,87

0,91

3,87

1,08

80,00

65,70

9,30

VBL2

5,70

5,77

2,38

8,58

0,87

3,70

1,48

80,00

66,11

11,41

40. 30.

5,92

5,99

2,42

S1-in axis6,08 [m] 6,30 5,67 6,52 5,70 6,57 5,92 6,78 6,08 7,00 6,30 7,20 6,52 7,39 6,57 7,63 6,78 7,65 7,00 7,85 7,20 8,07 7,39 8,21 7,63 9,26 7,65 8,46 7,85 8,55 8,07 8,89 8,21 8,94 9,26 9,16 8,46 9,19 8,55 9,41 8,89 9,62 8,94 9,67 9,16 9,89 9,19 10,07 9,41 10,10 9,62 10,26 9,67 10,45 9,89 10,48 10,07 10,53 10,10 10,69 10,26 10,88 10,45 10,91 10,48 11,01 10,53 11,18 10,69 11,39 10,88 11,66 10,91 11,82 11,01 12,02 11,18

Si-inner 6,08 [m] 6,30 5,70 6,52 5,77 6,61 5,99 6,83 6,08 7,04 6,30 7,23 6,52 7,40 6,61 7,67 6,83 7,72 7,04 7,88 7,23 8,10 7,40 8,20 7,67 9,21 7,72 8,46 7,88 8,63 8,10 8,89 8,20 8,99 8,21 9,21 8,46 9,26 8,63 9,47 8,89 9,69 8,99 9,78 9,21 10,00 9,26 10,17 9,47 10,22 9,69 10,31 9,78 10,48 10,00 10,53 10,17 10,63 10,22 10,75 10,31 10,91 10,48 10,96 10,53 11,15 10,63 11,27 10,75 11,49 10,91 11,80 10,96 11,90 11,15 12,09 11,27

Hi-inner2,41 [m]

VBL39

11,39

11,49

4,51

VBL40

11,66

11,80

4,77

VBL41

11,82

11,90

VBL42

12,02

12,09

VBL3 VBLVBL4 VBL5 VBL1 VBL6 VBL2 VBL7 VBL3 VBL8 VBL4 VBL9 VBL5 VBL10 VBL6 VBL11 VBL7 VBL12 VBL8 VBL13 VBL9 VBL14 VBL10 VBL15 VBL11 VBL16 VBL12 VBL17 VBL13 VBL18 VBL14 VBL19 VBL15 VBL20 VBL16 VBL21 VBL17 VBL22 VBL18 VBL23 VBL19 VBL24 VBL20 VBL25 VBL21 VBL26 VBL22 VBL27 VBL23 VBL28 VBL24 VBL29 VBL25 VBL30 VBL26 VBL31 VBL27 VBL32 VBL28 VBL33 VBL29 VBL34 VBL30 VBL35 VBL31 VBL36 VBL32 VBL37 VBL33 VBL38 VBL34 VBL39 VBL35 VBL40 VBL36 VBL41 VBL37 VBL42 VBL38

2,45 2,00 2,49 2,38 2,70 2,42 2,74 2,41 2,78 2,45 2,99 2,49 2,48 2,70 3,07 2,74 2,73 2,78 3,11 2,99 3,15 2,48 3,11 3,07 3,41 2,73 2,84 3,11 3,44 3,15 2,92 3,11 3,14 3,41 3,18 2,84 3,73 3,44 3,77 2,92 3,81 3,14 4,03 3,18 4,07 3,73 3,55 3,77 4,11 3,81 4,10 4,03 3,58 4,07 4,13 3,55 4,35 4,11 4,17 4,10 3,66 3,58 4,21 4,13 4,65 4,35 4,47 4,17 4,51 3,66 4,77 4,21 4,76 4,65 4,96 4,47

8,81 Periphery-in8,81 axis [m] 9,05 7,87 9,29 8,58 9,76 8,81 9,99 8,81 10,22 9,05 10,69 9,29 9,99 9,76 11,17 9,99 10,69 10,22 11,40 10,69 11,63 9,99 11,59 11,17 12,67 10,69 11,40 11,40 12,57 11,63 11,87 11,59 12,34 12,67 12,57 11,40 13,52 12,57 13,75 11,87 13,98 12,34 14,45 12,57 14,69 13,52 13,99 13,75 14,92 13,98 14,92 14,45 14,22 14,69 15,15 13,99 15,63 14,92 15,57 14,92 14,70 14,22 15,63 15,15 16,57 15,63 16,33 15,57 16,57 14,70 17,28 15,63 17,28 16,57 17,74 16,33

0,91 x [m]0,91

3,87 Rt-in axis3,87 [m]

1,48 1,62 Rc-in axis [m] 1,62 1,08 1,62 1,48 1,75 1,48 1,75 1,62 1,75 1,62 2,02 1,62 1,35 1,75 2,02 1,75 1,48 1,75 2,02 2,02 2,02 1,35 2,15 2,02 2,15 1,48 1,62 2,02 2,15 2,02 1,62 2,15 1,75 2,15 1,75 1,62 2,42 2,15 2,42 1,62 2,42 1,75 2,56 1,75 2,56 2,42 1,89 2,42 2,56 2,42 2,69 2,56 2,02 2,56 2,69 1,89 2,83 2,56 2,69 2,69 2,02 2,02 2,69 2,69 2,96 2,83 2,83 2,69 2,83 2,02 2,96 2,69 3,10 2,96 3,37 2,83

A-w świetle [m2]

80,00

66,12

12,00

Wt[080,00 ]

Wc[060,44 ]

80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00

60,45 65,70 60,45 66,11 63,36 66,12 63,37 60,44 63,46 60,45 61,81 60,45 62,59 63,36 61,74 63,37 65,88 63,46 61,74 61,81 61,75 62,59 57,26 61,74 43,54 65,88 60,34 61,74 64,12 61,75 60,36 57,26 63,61 43,54 63,61 60,34 62,61 64,12 62,61 60,36 62,62 63,61 64,51 63,61 64,51 62,61 65,90 62,61 64,57 62,62 61,46 64,51 61,66 64,51 61,25 65,90 63,02 64,57 61,26 61,46 61,68 61,66 61,26 61,25 64,85 63,02 63,03 61,26 63,04 61,68 64,91 61,26 61,99 64,85 60,90 63,03

A-inner12,03 [m2] 12,63 9,30 13,25 11,41 14,77 12,00 15,45 12,03 16,13 12,63 17,81 13,25 14,80 14,77 19,31 15,45 17,19 16,13 20,08 17,81 20,85 14,80 22,73 19,31 23,58 17,19 19,32 20,08 24,42 20,85 20,80 22,73 22,84 23,58 23,65 19,32 28,31 24,42 29,23 20,80 30,17 22,84 32,42 23,65 33,42 28,31 29,28 29,23 34,43 30,17 34,47 32,42 30,19 33,42 35,48 29,28 37,93 34,43 36,52 34,47 32,04 30,19 37,56 35,48 42,66 37,93 41,20 36,52 42,32 32,04 46,15 37,56 46,20 42,66 49,00 41,20

0,95 0,91 0,98 0,87 0,99 0,91 1,02 0,91 1,06 0,95 1,06 0,98 1,18 0,99 1,14 1,02 1,22 1,06 1,18 1,06 1,22 1,18 1,22 1,14 1,26 1,22 1,34 1,18 1,30 1,22 1,42 1,22 1,42 1,26 1,46 1,34 1,38 1,30 1,42 1,42 1,46 1,42 1,46 1,46 1,50 1,38 1,62 1,42 1,54 1,46 1,54 1,46 1,65 1,50 1,58 1,62 1,58 1,54 1,62 1,54 1,73 1,65 1,65 1,58 1,65 1,58 1,69 1,62 1,73 1,73 1,77 1,65 1,77 1,65 1,77 1,69

4,04 3,87 4,21 3,70 4,21 3,87 4,38 3,87 4,54 4,04 4,54 4,21 5,05 4,21 4,88 4,38 5,22 4,54 5,05 4,54 5,22 5,05 5,22 4,88 5,39 5,22 5,72 5,05 5,55 5,22 6,06 5,22 6,06 5,39 6,23 5,72 5,89 5,55 6,06 6,06 6,23 6,06 6,23 6,23 6,40 5,89 6,90 6,06 6,56 6,23 6,56 6,23 7,07 6,40 6,73 6,90 6,73 6,56 6,90 6,56 7,41 7,07 7,07 6,73 7,07 6,73 7,24 6,90 7,41 7,41 7,57 7,07 7,57 7,07 7,57 7,24

16,57

1,73

7,41

2,83

80,00

63,04

42,32

17,28

1,77

7,57

2,96

80,00

64,91

46,15

4,76

17,28

1,77

7,57

3,10

80,00

61,99

46,20

4,96

17,74

1,77

7,57

3,37

80,00

60,90

49,00

BURIED FLEXIBLE STEEL STRUCTURES

MultiPlate MP200 VBH VBH

VBH

S1-w osi [m]

Si-w świetle [m]

Hi-w świetle [m]

Obwód-w osi [m]

x [m]

Rt-w osi [m]

Rc-w osi [m]

Rf-w osi [m]

VBH1

5,19

5,70

3,14

10,23

0,91

3,87

1,08

3,87

VBH2 VBH VBH3

5,58 S1-in axis [m] 5,82

6,08 Si-inner [m] 6,30

3,55 Hi-inner [m] 3,59

11,17 Periphery-in axis [m] 11,40

0,91 x [m] 0,95

3,87 Rt-in axis [m] 4,04

1,62 Rc-in axis [m] 1,62

Wt[0]

Wc[0]

Wf[0]

A-w świetle [m2]

80,00

50,00

21,76

15,61

3,87 80,00 Rf-in axis [m] Wt[0] 4,04 80,00

21,76 50,00 Wc[0] Wf[0] 21,76 50,00

18,77 A-inner [m2] 19,65

VBH1 VBH4

6,065,19

6,515,70

3,633,14

10,23 11,64

0,980,91

4,213,87

1,621,08

4,213,87

80,00 80,00

50,00 21,76 21,76 50,00

15,61 20,55

VBH2 VBH5

6,725,58

7,406,08

4,083,55

11,17 13,28

1,180,91

5,053,87

1,351,62

4,973,87

80,00 80,00

50,00 21,76 21,76 50,00

18,77 26,27

VBH3 VBH6

7,535,82

8,206,30

4,743,59

11,40 14,93

1,220,95

5,224,04

2,151,62

5,284,04

80,00 80,00

50,00 21,76 21,76 50,00

19,65 33,62

VBH4 VBH7

7,776,06

8,416,51

4,783,63

11,64 15,16

1,260,98

5,394,21

2,151,62

5,334,21

80,00 80,00

50,00 21,76 21,76 50,00

20,55 34,79

VBH5 VBH8

7,696,72

8,467,40

4,674,08

13,28 15,16

1,341,18

5,725,05

1,621,35

5,724,97

80,00 80,00

50,00 21,76 21,76 50,00

26,27 34,33

VBH6 VBH9

7,847,53

8,638,20

5,044,74

14,93 15,87

1,301,22

5,555,22

2,192,15

5,695,28

80,00 80,00

50,00 21,76 21,76 50,00

33,62 37,70

VBH7 VBH10

8,177,77

8,898,41

4,754,78

15,16 15,63

1,421,26

6,065,39

1,622,15

5,945,33

80,00 80,00

50,00 21,76 21,76 50,00

34,79 36,69

VBH8 VBH11

8,517,69

9,268,46

5,334,67

15,16 16,81

1,381,34

5,895,72

2,491,62

6,045,72

80,00 80,00

50,00 21,76 21,76 50,00

34,33 42,66

VBH9 VBH12

8,757,84

9,478,63

5,375,04

15,87 17,04

1,421,30

6,065,55

2,342,15

6,065,69

80,00 80,00

50,00 21,76 21,76 50,00

37,70 43,98

VBH10 VBH13

8,878,17

9,698,89

5,634,75

15,63 17,75

1,461,42

6,236,06

2,421,62

6,565,94

80,00 80,00

50,00 21,76 21,76 50,00

36,69 47,25

VBH11 VBH14

9,228,51

9,26 10,17

5,615,33

16,81 18,22

1,621,38

6,905,89

1,892,42

6,906,04

80,00 80,00

50,00 21,76 21,76 50,00

42,66 49,48

VBH12 VBH15

9,498,75

9,47 10,31

5,935,37

17,04 18,69

1,541,42

6,566,06

2,692,42

6,626,06

80,00 80,00

50,00 21,76 21,76 50,00

43,98 52,77

VBH13 VBH16

9,738,87

9,69 10,53

5,975,63

17,75 18,92

1,581,46

6,736,23

2,692,42

6,836,56

80,00 80,00

50,00 21,76 21,76 50,00

47,25 54,23

VBH14 VBH17

9,799,22

10,17 10,75

6,235,61

18,22 19,63

1,611,62

6,906,90

2,691,89

7,016,90

80,00 80,00

50,00 21,76 21,76 50,00

49,48 57,87

VBH15 VBH18

9,49 10,03

10,31 10,96

6,275,93

18,69 19,86

1,651,54

7,076,56

2,692,69

6,966,62

80,00 80,00

50,00 21,76 21,76 50,00

52,77 59,41

VBH16 VBH19

9,73 10,23

10,53 11,15

6,485,97

18,92 20,33

1,651,58

7,076,73

2,962,69

7,026,83

80,00 80,00

50,00 21,76 21,76 50,00

54,23 62,35

VBH17 VBH20

9,79 10,77

10,75 11,80

6,826,23

19,63 21,51

1,771,61

7,576,90

2,962,69

7,637,01

80,00 80,00

50,00 21,76 21,76 50,00

57,87 69,55

VBH18

10,03

10,96

6,27

19,86

1,65

7,07

2,69

6,96

80,00

50,00

21,76

59,41

VBH19

10,23

11,15

6,48

20,33

1,65

7,07

2,96

7,02

80,00

50,00

21,76

62,35

VBH20

10,77

11,80

6,82

21,51

1,77

7,57

2,96

7,63

80,00

50,00

21,76

69,55

www.viacon.pl www.viacon.pl

41. 31.

Profiles VH VH

VH

VH

VH1 VH1 VH2 VH2 VH3 VH3 VH4 VH4 VH5 VH5 VH6 VH6 VH7 VH7 VH8 VH8 VH9 VH9 VH10 VH10 VH11 VH11 VH12 VH12 VH13 VH13 VH14 VH14 VH15 VH15 VH16 VH16 VH17 VH17 VH18 VH18 VH19 VH19 VH20 VH20 VH21 VH21 VH22 VH22 VH23 VH23 VH24 VH24 VH25 VH25 VH26 VH26 VH27 VH27 VH28 VH28 VH29 VH29 VH30 VH30 VH31 VH31 VH32 VH32 VH33 VH33 VH34 VH34 VH35 VH35 VH36 VH36 VH37 VH37 VH38 VH38 VH39 VH39 VH40 VH40 VH41 VH41 VH42 VH42

32. 42.

Si-w świetle [m] Si-inner [m] 5,70 5,70 5,77 5,77 5,98 5,98 6,08 6,08 6,30 6,30 6,51 6,51 6,61 6,61 6,83 6,83 7,04 7,04 7,23 7,23 7,40 7,40 7,67 7,67 7,72 7,72 7,88 7,88 8,10 8,10 8,20 8,20 8,91 8,91 8,46 8,46 8,63 8,63 8,89 8,89 8,89 8,89 9,21 9,21 9,25 9,25 9,47 9,47 9,69 9,69 9,78 9,78 10,00 10,00 10,17 10,17 10,22 10,22 10,31 10,31 10,48 10,48 10,53 10,53 10,62 10,62 10,75 10,75 10,91 10,91 10,96 10,96 11,15 11,15 11,27 11,27 11,49 11,49 11,80 11,80 11,90 11,90 12,09 12,09

Hi-w świetle [m] Hi-inner [m] 3,41 3,41 3,95 3,95 4,03 4,03 4,24 4,24 4,32 4,32 4,39 4,39 4,60 4,60 4,68 4,68 4,76 4,76 5,17 5,17 4,38 4,38 5,33 5,33 4,66 4,66 5,41 5,41 5,49 5,49 5,69 5,69 5,77 5,77 5,10 5,10 5,85 5,85 5,26 5,26 5,47 5,47 5,55 5,55 6,42 6,42 6,50 6,50 6,58 6,58 6,78 6,78 6,86 6,86 6,07 6,07 6,94 6,94 7,15 7,15 6,35 6,35 7,23 7,23 7,43 7,43 7,30 7,30 6,51 6,51 7,38 7,38 7,80 7,80 7,67 7,67 7,75 7,75 8,03 8,03 8,24 8,24 8,65 8,65

Obwód-w osi [m] Periphery-in axis [m] 14,57 14,57 15,51 15,51 15,97 15,97 16,45 16,45 16,93 16,93 17,38 17,38 18,01 18,01 18,34 18,34 18,79 18,79 19,73 19,73 18,81 18,81 20,68 20,68 19,75 19,75 21,15 21,15 21,63 21,63 22,09 22,09 22,56 22,56 21,61 21,61 23,03 23,03 22,55 22,55 23,04 23,04 23,51 23,51 24,91 24,91 25,38 25,38 25,86 25,86 26,31 26,31 26,79 26,79 25,86 25,86 27,26 27,26 27,73 27,73 26,79 26,79 28,21 28,21 28,66 28,66 28,67 28,67 27,73 27,73 29,13 29,13 30,08 30,08 30,08 30,08 30,56 30,56 31,48 31,48 31,96 31,96 32,89 32,89

x [m] x [m] 0,91 0,91 0,87 0,87 0,91 0,91 0,91 0,91 0,95 0,95 0,98 0,98 0,98 0,98 1,00 1,00 1,01 1,01 1,03 1,03 1,05 1,05 1,06 1,06 1,08 1,08 1,10 1,10 1,12 1,12 1,13 1,13 1,15 1,15 1,17 1,17 1,18 1,18 1,20 1,20 1,22 1,22 1,23 1,23 1,25 1,25 1,27 1,27 1,28 1,28 1,30 1,30 1,32 1,32 1,33 1,33 1,35 1,35 1,37 1,37 1,39 1,39 1,40 1,40 1,42 1,42 1,44 1,44 1,45 1,45 1,47 1,47 1,49 1,49 1,50 1,50 1,52 1,52 1,54 1,54 1,55 1,55 1,57 1,57

Rt-w osi [m] Rt-in axis [m] 3,87 3,87 3,70 3,70 3,87 3,87 3,87 3,87 4,04 4,04 4,21 4,21 4,20 4,20 4,27 4,27 4,35 4,35 4,43 4,43 4,50 4,50 4,58 4,58 4,66 4,66 4,74 4,74 4,81 4,81 4,89 4,89 4,97 4,97 5,04 5,04 5,12 5,12 5,20 5,20 5,27 5,27 5,35 5,35 5,43 5,43 5,50 5,50 5,58 5,58 5,66 5,66 5,74 5,74 5,81 5,81 5,89 5,89 5,97 5,97 6,04 6,04 6,12 6,12 6,20 6,20 6,27 6,27 6,35 6,35 6,43 6,43 6,50 6,50 6,58 6,58 6,66 6,66 6,74 6,74 6,81 6,81 6,89 6,89

Rc-w osi [m] Rc-in axis [m] 1,08 1,08 1,48 1,48 1,48 1,48 1,62 1,62 1,62 1,62 1,62 1,62 1,80 1,80 1,90 1,90 1,99 1,99 2,08 2,08 2,17 2,17 2,27 2,27 2,36 2,36 2,45 2,45 2,54 2,54 2,64 2,64 2,73 2,73 2,82 2,82 2,91 2,91 3,01 3,01 3,10 3,10 3,19 3,19 3,28 3,28 3,38 3,38 3,47 3,47 3,56 3,56 3,65 3,65 3,75 3,75 3,84 3,84 3,93 3,93 4,02 4,02 4,12 4,12 4,21 4,21 4,30 4,30 4,39 4,39 4,49 4,49 4,58 4,58 4,67 4,67 4,76 4,76 4,85 4,85 4,95 4,95 5,04 5,04

Wt[0] Wt[0] 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00 80,00

Wc[0] Wc[0] 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00 100,00

A-w świetle [m2] A-inner [m2] 15,26 15,26 18,11 18,11 19,13 19,13 20,47 20,47 21,55 21,55 22,66 22,66 24,40 24,40 25,79 25,79 27,18 27,18 28,57 28,57 29,96 29,96 31,35 31,35 32,74 32,74 34,13 34,13 35,52 35,52 36,91 36,91 38,30 38,30 39,69 39,69 41,08 41,08 42,47 42,47 43,86 43,86 45,25 45,25 46,64 46,64 48,03 48,03 49,42 49,42 50,81 50,81 52,20 52,20 53,59 53,59 54,98 54,98 56,37 56,37 57,76 57,76 59,15 59,15 60,54 60,54 61,93 61,93 63,32 63,32 64,71 64,71 66,10 66,10 67,49 67,49 68,89 68,89 70,28 70,28 71,67 71,67 73,06 73,06

BURIED FLEXIBLE STEEL STRUCTURES

MultiPlate MP200 BC BC

BC BC BC1 BC1 BC2 BC2 BC3 BC3 BC4 BC4 BC5 BC5 BC6 BC6 BC7 BC7 BC8 BC8 BC9 BC9 BC10 BC10 BC11 BC11 BC12 BC12 BC13 BC13 BC14 BC14 BC15 BC15 BC16 BC16 BC17 BC17 BC18 BC18 BC19 BC19 BC20 BC20 BC21 BC21

Si-w świetle [m] Si-inner [m] 3,14 3,14 3,49 3,49 3,79 3,79 3,81 3,81 4,04 4,04 4,16 4,16 4,51 4,51 4,69 4,69 4,84 4,84 5,17 5,17 5,27 5,27 5,30 5,30 5,61 5,61 6,07 6,07 6,11 6,11 6,26 6,26 6,43 6,43 6,44 6,44 6,59 6,59 6,92 6,92 6,95 6,95

Hi-w świetle [m] Hi-inner [m] 1,20 1,20 1,39 1,39 1,47 1,47 1,22 1,22 1,81 1,81 1,30 1,30 1,38 1,38 1,97 1,97 1,60 1,60 1,69 1,69 1,42 1,42 2,04 2,04 1,52 1,52 1,42 1,42 1,89 1,89 1,60 1,60 2,00 2,00 2,35 2,35 1,71 1,71 1,82 1,82 2,17 2,17

Obwód-w osi [m] Periphery-in axis [m] 4,59 4,59 5,29 5,29 5,76 5,76 5,29 5,29 6,47 6,47 5,76 5,76 6,23 6,23 7,41 7,41 6,94 6,94 7,41 7,41 6,94 6,94 8,11 8,11 7,41 7,41 7,64 7,64 8,58 8,58 8,11 8,11 9,05 9,05 9,76 9,76 8,58 8,58 9,05 9,05 9,76 9,76

Rt [m] Rt [m] 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82 8,82

Rc [m] Rc [m] 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02 1,02

Wt[0] Wt[0] 7,35 7,35 9,97 9,97 12,59 12,59 9,97 9,97 12,59 12,59 15,22 15,22 17,83 17,83 17,83 17,83 20,45 20,45 23,07 23,07 23,57 23,57 23,07 23,07 26,19 26,19 30,28 30,28 30,28 30,28 31,43 31,43 32,90 32,90 32,90 32,90 34,05 34,05 36,67 36,67 36,67 36,67

Wc[0] Wc[0] 72,33 72,33 75,02 75,02 77,72 77,72 72,36 72,36 72,37 72,37 72,35 72,35 72,35 72,35 72,35 72,35 75,02 75,02 75,01 75,01 69,69 69,69 72,35 72,35 69,69 69,69 72,36 72,36 72,36 72,36 69,69 69,69 72,36 72,36 72,36 72,36 69,69 69,69 69,69 69,69 69,69 69,69

ß[0] ß[0] 76,00 76,00 80,00 80,00 84,00 84,00 77,34 77,34 78,65 78,65 79,96 79,96 81,27 81,27 81,27 81,27 85,24 85,24 86,55 86,55 81,47 81,47 83,89 83,89 82,78 82,78 87,50 87,50 87,50 87,50 85,40 85,40 88,81 88,81 88,81 88,81 86,71 86,71 88,02 88,02 88,02 88,02

a[m] a[m] 0,44 0,44 0,55 0,55 0,54 0,54 0,37 0,37 0,99 0,99 0,40 0,40 0,44 0,44 1,06 1,06 0,57 0,57 0,61 0,61 0,42 0,42 1,01 1,01 0,45 0,45 0,21 0,21 0,68 0,68 0,40 0,40 0,71 0,71 1,06 1,06 0,43 0,43 0,47 0,47 0,82 0,82

A-w świetle [m2] A-inner [m2] 3,13 3,13 4,17 4,17 4,89 4,89 4,00 4,00 6,27 6,27 4,69 4,69 5,44 5,44 8,13 8,13 6,82 6,82 7,73 7,73 6,45 6,45 9,59 9,59 7,34 7,34 7,33 7,33 10,20 10,20 8,58 8,58 11,33 11,33 13,60 13,60 9,64 9,64 10,76 10,76 13,20 13,20

Note:

Note: MultiPlate MP200 Box structures need to be individually designed due to necessity of using additional reinforcing rib plates. Extent and location of ribs depend on parameters of the structure and live load and are determined based on static

MultiPlate MP200 Box structures need to be individually designed due to necessity of using additional reinforcing rib plates. Extent and location of ribs calculations. depend on parameters of the structure and live load and are determined based on static calculations. Special sizes are available. Special sizes are available. While shape of box structure and rib extent are designed please contact our technical department. . While shape of box structure and rib extent are designed please contact our Technical Department.

www.viacon.pl www.viacon.pl

33. 43.

9. Case studies

Karpacz, ul. Parkowa In 2012, in the center of Karpacz the traffic tunnel has started to build. Tunnel will be conducted on the proposed Parkowa street with 7 m carriageway width. Ski slope “Kolorowa” will be located over the tunnel which is made of buried flexible steel structures of Multiplate MP200 VBH19 based on concrete foundation. Fire protection will be installed inside the tunnel and waterproof of the outside of the structure.

MultiPlate MP200 VBH19 dimensions: - span: 11,15 m - rise: 6,48 m - bottom length: 100 m - plate thickness: 7,0 mm - corrugation profile: 200x55 mm

On the 60 m length, the tunnel crosses in a straight line and on 40 m length the tunnel is situated in horizontal curvature of 80 m. In a longitudinal profile it is designed in 1000 m of vertical concave radius of 1000 m and on the rest of the length in slope of 0,5%.

To fit the structure to the horizontal curvature, the 7 bands of the structure were done. MultiPlate MP200 was backfilled with none-cohesive soil according to producer requirements. To reduce and balance soil pressure from unequal overfill elevation, protection by soil nailing of the excavation was designed. In order to prevent structures against rain water that can infiltrate through backfilling it is necessary to make suitable protection of HDPE geomembrane. Inside the tunnel on the surface of the structures the fire protection will be done and on it the paint coating will be used. On the inlet and outlet of the tunnel the concrete headwalls paved with natural stone. The engineering structure is built in open cut. The structure was designed to carry the deadload (soil) and liveload (class D) according to PN-85/S10030 norm. .

44.

Świdnica, Brzozowa Avenue In 2008, the reconstruction of a viaduct over the railway line between Świdnica - Świdnica City Suburb was made. The existing three span viaduct had been replaced by the buried flexible steel structure. Application of steel structure allowed to meet the requirements of clearance box for railway and bearing capacity.

Parameters of MultiPlate MP200 – 41 HA 6-10: - span 9,88 m - rise 4,70 m - length: 10,55 m - plate thickness: 7,0 mm - skew angle: 90° - corrugation profile: 200x55 mm

The structure were hot dip galvanized acc. to PN-EN ISO 1461:2000. Structure was set on piles made of steel pipes with diameter of 300 mm and wall of 12 mm thick. Steel plates were mounted on both sides of steel piles. The space between plates was filled with C 12/15 concrete . Backfilling was made of permeable soil compacted to standard Proctor density 0,98. In order to preserve structures against rain water that can infiltrate through backfilling it was necessary to make suitable protection made of HDPE geomembrane. Inlet and outlet of the structure were designed in a vertical concrete (C25/30) headwalls. On the top of the headwalls guardrails were assembled.

www.viacon.pl

45.

Dolomite Mine in Radkowice and Basalt Mine in Sulikowo In 2011, in the Dolomite Mine in Radkowice near Kielce and Basalt Mine near Zgorzelec in Sulikowo four transport tunnels made of corrugated steel structures MultiPlate MP200 type VT9 and VT6 were installed. The tunnel with a length of 14 m runs a belt conveyor under the interior road to the mine. Assembly of conveyor housing and the structure took place at the same time, allowing the continuity of the traffic. Over the three other tunnels, intermediate and finished product are placed. The upper walls of the structure are provided with holes through which the material is pouring on the belt conveyor, which sorts it out in a proper proportions. Next, intermediate product is processed, after which the final product reaches the loading station. Erection of 4 tunnels lasted about 1,5 months.

MultiPlate MP200 VT6 dimentions: - span: 3,71 m - rise: 3,36 m - bottom length: 35 m - plate thickness: 4 mm

MultiPlate MP200 VT9 dimentions: - span: 4,29 m - rise: 3,79 m - bottom length: 256,40 m; 80 m; 14 m - plate thickness: 4 mm

46.

Łagów In 2012 sewage treatment tanks made of corrugated steel plate structures were built.

Steel tanks were placed on reinforced concrete slab. Prior to joining sheets at their edges - in the joints, two layers of butyl strip were laid. At the beginning the first ring of structure was assembled, without full tightening of nuts to give maximum flexibility until all plates are fitted into place.

While first ring was assembled, nominal dimensions of the tank were achieved with the use of strips attached inside the structure. Then the holes in the foundation were made to glue the anchors that fasten steel structure to concrete footing. Then another plates were assembled.

After completion, backfilling of the structure began. The backfilling was made uniformly around the tank. During structure backfilling the control of the dimensions was carried out to prevent excessive deformation.

The use of corrugated steel plate structures allows for quick and easy installation regardless of weather conditions.

MultiPlate MP200 structures provide an excellent alternative to the costly and labour-consuming reinforced concrete tanks.

www.viacon.pl

47.

Denmark MultiPlate MP200 structures are used as pipe casings that protect pipes against external loads, especially in the places where pipes pass under roads or car parks. Such casings provide also the possibility of constructing thermal compensators in an easy way (e.g. district heating pipes) and enable maintenance of pipes thanks to easy dismantling of individual metal plates of the MultiPlate MP200 structure. To protect central heating pipes the MultiPlate MP200 structures type VN4 were used. MultiPlate MP200 VN4 dimensions: - width – 2,97 m - rise – 2,0 m - plate thickness – 4 mm - length – 90 m - corrugation profile – 200x55 mm Structures were backfilled using aggregate grain size 0-42 mm. Assembly of the MultiPlate MP200 structures was led by a team consisted of 2 people and lasted three weeks.

48.

ViaCon Sp. z o.o. ViaCon Sp. z o.o. is a member of ViaCon Group established in Sweden and Norway in 1986. At present ViaCon Group operates in a dozen or so European countries and belongs to SAFEROAD® Group. Thanks to the support from the entire group and the possibility of using the shared experience, each member company can offer professional technical consulting and top quality products.

Business profile of the company: • manufacture, design, sale and installation of plastic and steel pipes and flexible structures used for construction ViaCon Group and repair of culverts, bridges, overpasses, tunnels, farm accommodation underpasses, wildlife crossings, other engineering structures, and used also as belt conveyor housings, • manufacture, design and sale of storm water drainage systems and holding tanks, • design, sale and installation of geosynthetics, such as non-woven geotextile fabrics, woven geotextile fabrics, geogrids, geomembranes, and bentonite mats, • sale and lease of temporary bridges, • sale of gabions, • design, manufacture and sale of three retaining structure systems from reinforced soil.

MP200 pl ok_folder-srodek2.qxd 2012-10-08 15:00 Strona 13

PECOR OPTIMA®

HelCor®

HelCor PA®

MultiPlate MP200

SuperCor®

Acrow® 700XS® - temporary bridges

Woven and non-woven geotextiles

Geogrids

Gabions

HelCor® TC holding tanks

HelCor® wells

PECOR OPTIMA® M wells

ViaWall A retaining walls

ViaWall B retaining walls

Pecor Quattro sewage system

ViaBlock retaining walls

Our goal is to improve products and to cooperate closely with customers, scientific and research centres, public administration and suppliers.

ViaCon Sp. z o.o. ul. Przemysłowa 6 64-130 Rydzyna, Poland phone: +48 65 525 45 45 fax: +48 65 525 45 55 e-mail: [email protected]

www.viacon.pl

That’s why our motto is:

”Let’s Create a Better Future Together”