Improved rubber to fabric bonding with Rhenosin T

Improved rubber to fabric bonding with ... NBR, CR, or VP (vinylpyri-dine ). ... Fax: +81 (0)5293-8041 [email protected]...
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Technical report No. 72

Improved rubber to fabric bonding with Rhenosin ® T Hans-Martin Issel, Rhein Chemie Rheinau GmbH, Mannheim, Germany [ mailto: [email protected] ] Key words: Rhenosin® T, fabric coating, adhesion promoter, RFL, dip, latex, pre-reacted resorcinol, Vulkadur® T, textile, fabric, fiber, tire, belt, hose, airspring, rayon, polyester, polyamide, aramid

Abstract ®

Rhenosin T is a resorcinol pre-condensate used as an adhesion promoter for rubberized fabric coatings. For pre-impregnation of textiles, pre-reacted resorcinol formaldehyde dispersions and dips of latex (RFL) are usually employed. The so-called RFL dips are either made of individual components or with pre-reacted resorcinol. The formation of the pre-polymer by the reaction of resorcinol with formaldehyde is a sensitive chemical process that requires elaborate staff protection measures due to its hazard potential. This is why a pre-reacted product such as Rhenosin® T is often used. This guarantees uniform resin qualities and makes it unnecessary to master a complicated chemical process. Rhenosin® T is a resorcinol formaldehyde prepolymer which has not yet fully completed its reaction. It guarantees consistently uniform resin properties for processing and regarding latex-fabric adhesion. It is usually processed in combination with latex but does not require handling of formaldehyde, which is a health hazard.

The finished dispersions do not polymerize under storage conditions and are of low viscosity so that they can be easily metered and applied. It is available as 40 percent dispersion. Upon customer request it can also be provided in customized concentrations.

Page 2

1.

Product specifications

Technical report No. 72

Tab. 1: Typical product characteristics

Chemical composition Appearance

Resorcinol formaldehyde resin, pre-reacted reddish-brown liquid 1.165-1.19

Specific gravity (g/cm3) Solid content (%)

39-41%

pH (in solution 1:10)

9.4-9.8

Viscosity 20°C Solubility

150-500 mPas unlimited in water

Storage stability

1.1

1 year

Application

The dip is usually composed of Rhenosin® T, water, and latex. Depending on the application, water, resorcinol, formaldehyde, and additional adhesion promoters may be added. The latices used may be SBR, NBR, CR, or VP (vinylpyridine ).

Dosage guideline for Rhenosin® T a) Rhenosin® T concentration The concentration may require some adjustment for the desired strength of adhesion and the type of fiber. For rayon fibers, a typical Rhenosin® T dry weight content would be 15 20 weight percent of the rubber solids; for polyester or polyamide it should be 20 - 30 weight percent. For high-performance fabric and difficult-to-bond fibers (e.g. aramid), Rhenosin® T can also be used in undiluted form (40 percent). Thus, better wetting is achieved. Usually, Rhenosin® T can be adjusted to the desired dry weight content by dilution in water.

b) Formaldehyde concentration The pre-reacted Rhenosin® T is optimized for best adhesion, but it can be further modified by adding formaldehyde. Stronger adhesion can be achieved by a higher formaldehyde concentration. However, this results in stiffer latex films which are harder to process. c) Sample formulation The following formulation is a sample of a basic application on rayon fabric. Tab. 2: Sample formulation dosage parts wet

dry weight parts wet

SBR latex

300

75

VP latex

62.5

25

50

20

20

6

Rhenosin® T Formaldehyde (30%) Water

617.5

Total

1.050

126

Weight percentage resin from Rhenosin® T as a percentage of latex

20%

Weight percentage formaldehyde derived from solution on latex

6%

Overall dry weight content of all components

12%

Page 3 Technical report No. 72

1.2

Processing guidelines

Before use, Rhenosin® T is diluted with water at, for example, a ratio of 1:5, and mixed with the required volume of formaldehyde. For alkaline stabilization ammonia or NaOHsolutions are applied. No maturation is required for resin to form. The remaining water is mixed with the latex. After that, the diluted resin dispersion is stirred into the latex dispersion. The dip can be used either immediately or after a period of storage. Its durability can be up to several weeks. Typically the finished dips are processed within a few days. An exception to this is the CR latex, where zinc oxide is used as an additive. In order to prevent phase separation it is useful to add latex soaps (e.g. 1 percent Emulvin W®) and to stir the dispersions. The recommended quantity of solids to be applied to the fabric from the finished RFL dispersion is 4 - 8 percent of the fabric weight, depending on the desired properties. In some

1.3

Chart 1: Structure of two- and one-coat systems

Rubber

Rubber

RFL

RFL Rhenosin® T

Epoxy/Isocyanate Fiber

Fiber

For complete post-reaction of the RFL resin, temperatures of 120 - 180°C are required for a period of 10 - 1min, which should also allow the fabric to dry.

Properties of the coated fabric

Coatings with RFL dips based on Rhenosin T ensure excellent rubber–fabric adhesion properties. These are generally superior to those of the traditional RFL mixture-based ®

1.4

cases, in particular for high-performance fibers with high stiffness such as polyamide or aramid, a two-coat process can be used, in which an epoxy or isocyanate dip is first applied to the fabric (see Chart 1).

composites. In particular, dynamic durability and consistency of quality are remarkably improved. This is the case in particular with vinylpyridine latices.

Formulations Guide 1. RFL dip activated with Rhenocure® TT for polyamide bonding a) Preparation of the activator dispersion with Rhenosin® T concentration

Tab. 3: Rhenocure® TT activator parts wet

dry weight

50

50

Tamol NN 9104

2.2

2.2

Water

42.8

®

Tamol NN 9104 is dissolved in water under slight stirring. Rhenocure® TT is dispersed in this solution with fast stirring. The thickener Prox® A 300 is added under high speed stirring as well.

Rhenocure® TT ®

Prox® A 300 (6%) Total

5

0.3

100

52.5

Page 4 Technical report No. 72

b) Preparation of the RFL basic dip Rhenosin® T is mixed with water. Then formaldehyde is added under stirring. The mixture of Rhenosin® T with water is poured into the diluted latex Pyratex® 240 and stirred for 3 hours.

Tab. 4: RFL dip

Pyratex® 240 (41%)

The dispersions (a) and (b) are blended together under stirring. The dip is ready for use, it should be stirred to avoid sedimentation of solids.

dry weight

250

100

100.5

Water Rhenosin® T (40%)

50

Water

250

Formaldehyde (30%)

20

6

670.5

126

Total

c) Preparation of the activated RFL dip

parts wet

20

Tab. 5: Activated RFL dip for polyamide Finished activated dip

RFL dip (b)

parts wet

dry weight

670.5

126

25

13.1

695.5

139.1

parts wet

dry weight

159

63.6

Pyratex 240 (41%)

85

34

Water

640

Rhenosin® T (40%)

42.5

12

Formaldehyde (30%)

11.4

3.4

Rhenocure® TT dispersion (a) Total Dry wt. content: 20%

2. RFL dip for rayon The latex Litex® S71 is diluted with water. The dispersion of Rhenosin® T containing water and formaldehyde as added is mixed while stirring.

Tab. 6: RFL dip for rayon

Litex® S71 (40%) ®

Ammonia (25% solution) can be used for adjustment of pH values. Dip can be used immediately. An optimum is achieved after 3 hours of stirring. For higher cord adhesion multiple dipping may be required.

Dry wt. content: 12%

3. RFL dip for polyamide filaments in belts The latex Lipren® MKB10 is diluted with water and mixed with the dispersion of Rhenosin® T. Formaldehyde, zinc oxide and Rhenofit® DDA50EM are added and stirred.

Tab. 7: RFL dip for polyamide filaments parts wet

dry weight

Lipren® MKB (58)

173

100

Water

395

17.2

Rhenosin® T (40%)

42.9

7.5

15

1

2

4

12

129.7

ZnO dispersion (50%) ®

Rhenofit DDA-50 EM (50%) Formaldehyde (30%) Total Dry wt. content: 20%

639.9

Page 5

4. RFL dip for polyester a) Preparation of RF resin dispersion

Technical report No. 72

First sodium hydroxide (NaOH) 5% is mixed with water. Rhenosin® T is added during stirring. The solution is agitated for 5 min.

Tab. 8: Resin dispersion

NaOH solution (5%) Water ®

Rhenosin T (40%)

b) Preparation of latex dispersion The latex Pyratex 240 is mixed with water and ammonia is added. The dispersion is immediately ready for use.

c) Preparation of RFL dip for polyester The dispersions in Tab. 8 and Tab. 9 are combined in the ratios as given in Tables 7 and 8. The mixture is slightly stirred to blend the components. The dip is ready for use after 12-24 hours of reaction time. It should be used within 3-4 days while stirring the dispersion.

2.

Summary Fabric reinforcement meets high performance requirements of modern radial tire carcasses, pressurized hoses, belting, or in air suspension systems. Rhenosin® T offers a clean, safe solution for the fabrics coating industry to apply high performance dips on RFL basis. The dips show good stability and support the achievement of a highly uniform performance level in bonding between rubber and fabric. The activity can be further activated by adding bonding activators like Rhenocure® TT to the dip. Rhenosin® T guarantees a very high bond strength and a superior rubber coverage of cord before and after aging.

parts wet

dry weight

9

0.45

153.4

0

31.5

12.6

Formaldehyde (37%)

12.2

4.51

Total

206.1

17.56

parts wet

dry weight

Pyratex® 240 (41%)

244

100

Water

70.8

0

Ammonia (25%)

13.4

0

Total

328.2

100

parts wet

dry weight

Resin dispersion (a) (8.5%)

206.1

17.56

Latex dispersion (b) (30.5%)

328.2

100

Total

534.3

117.56

Tab. 9: Latex dispersion

Tab. 10: RFL dip for polyester

Our technical advice - whether verbal, in writing or by way of trials - is given in good faith but without warranty, and this also applies where proprietary rights of third parties are involved. It does not release you from the obligation to test the products supplied by us as to their suitability for the intended processes and uses. The application, use and processing of the products are beyond our control and, therefore, entirely your own responsibility. Should, in spite of this, liability be established for any damage, it will be limited to the value of the goods delivered by us and used by you. We will, of course, provide products of consistent quality within the scope of our General Conditions of Sale and Delivery.

Rhein Chemie Rheinau GmbH Duesseldorfer Strasse 23-27 68219 Mannheim, Germany Phone: +49 (0)621-8907-0 Fax: +49 (0)621-8907-594 [email protected]

Rhein Chemie Corporation 145 Parker Court Chardon, OH 44024, USA Phone: +1-440-279 Fax: +1-440-285 [email protected]

Rhein Chemie Japan Ltd. Marunouchi Kitaguchi, Bldg. 23 F 1-6-5 Marunouchi, Chiyoda-ku Tokyo 100-0005, Japan Phone: +81 (0)5293-8041 Fax: +81 (0)5293-8041 [email protected]

Rhein Chemie (Qingdao) Ltd. 43 Siliubei Road Li Chang District Qingdao 266043, PR China Phone: +86-532-482-1670 Fax: +86-532-482-5961 [email protected]

www.rheinchemie.com

G 323/pdf/KR/0707

Rhenosin®, Rhenocure® and Rhenofit® are registered trademarks of Rhein Chemie Rheinau GmbH, Germany. Vulkadur® is a registered trademark of Lanxess Deutschland GmbH, Germany. Emulvin® is a registered trademark of Bayer AG, Germany. Pyratex®, Lipren® and Litex® are registered trademarks of Polymer Latex GmbH, Germany. Tamol® is a registered trademark of BASF AG, Germany. Prox® is a registered trademark of Synthron, France.