TA202A: Introduction to Manufacturing Processes - IIT Kanpur

TA202A: Introduction to Manufacturing Processes

N. Sinha Department of Mechanical Engineering IIT Kanpur Email: [email protected]

Information About the Course Lectures Schedule: Tuesday (8:00-9:00 AM) Venue: L-7

Labs Schedule: Monday-Friday (2:00-5:00 PM) Venue: TA202 ME Lab

TA202 Lab

Course updates and announcements http://home.iitk.ac.in/~nsinha/ta.html

Information About the Course TA202A: Introduction to Manufacturing Processes TA: Technical Arts. Introduction: Latin verb introducere, refers to a beginning. Manufacturing: something made from raw materials by hand or by machinery. Process: a series of actions that you take in order to achieve a result. Goal: The course aims to impart the basic knowledge about the fundamental manufacturing techniques employed to convert a raw material into final product.

Manufacturing - Technological • Application of physical and chemical processes to alter the geometry, properties, and/or appearance of a starting material to make parts or products

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Manufacturing – Economic • Transformation of materials into items of greater value by one or more processing and/or assembly operations

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Manufacturing Industries • Industry consists of enterprises and organizations that produce or supply goods and services • Industries can be classified as: 1. Primary industries - cultivate and exploit natural resources, e.g., agriculture, mining 2. Secondary industries - take the outputs of primary industries and convert them into consumer and capital goods 3. Tertiary industries - service sector

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Manufacturing Industries - Continued • Secondary industries include manufacturing, construction, and electric power generation • For our purposes, manufacturing means production of hardware – Nuts and bolts, forgings, cars, airplanes, digital computers, plastic parts, and ceramic products

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Manufactured Products • Final products divide into two major classes: 1. Consumer goods - products purchased directly by consumers • Cars, clothes, TVs, tennis rackets 2. Capital goods - those purchased by companies to produce goods and/or provide services • Aircraft, computers, communication equipment, medical apparatus, trucks, machine tools, construction equipment

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Manufacturing Processes Two basic types: 1. Processing operations - transform a work material from one state of completion to a more advanced state – Operations that change the geometry, properties, or appearance of the starting material 2. Assembly operations - join two or more components to create a new entity

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Question Why do I need this course? Why theory? Why lab exercises?

Question

Which Process to Select and Why?

www.wonkeedonkeetools.co.uk

Questions
Need to machine newly developed metals and non-metals with special properties that make them difficult or impossible to machine by conventional methods
Need for unusual and/or complex part geometries that cannot easily be accomplished by conventional machining
Need to avoid surface damage that often accompanies conventional machining

Example
Intricate shaped blind hole – e.g. square hole of 15 mm x 15 mm with a depth of 30 mm
Difficult to machine material – e.g. same example as above in Inconel, Tialloys or carbides.
Low Stress Grinding – Electrochemical Grinding is preferred as compared to conventional grinding
Deep hole with small hole diameter – e.g. φ 1.5 mm hole with l/d = 20
Machining of composites.

Questions

Questions

http://www.me.iitb.ac.in/~ramesh/courses/ME338/non_trad.pdf

Microfabrication

Miniaturization: Information Storage

Data recording on a disc  The information is transformed to strings of binary digits (0s and 1s, also called bits).  Each bit is then laser “burned” into the disc, using a single beam of light, in the form of dots.  The storage capacity of optical discs is mainly limited by the physical dimensions of the dots. Fgure Source: International Data Corporation (IDC)

Miniaturization: Information Storage How far can we reduce the size of the dots? Abbe’s Limit: If a light beam is focused through a lens, the diameter of the resulting spot of light can’t be smaller than half its wavelength. Way to get around the problem The first beam (red, in the figure) has a round shape, and is used to write data.  Then, place a doughnut-shaped laser (purple, in the figure) around the initial laser in order to limit the abilities of the first beam. This effectively made the standard laser’s diameter smaller, and it could then write smaller bits. Source: http://theconversation.com/more-data-storage-heres-how-to-fit-1-000-terabytes-on-a-dvd-15306

Layered/Additive Manufacturing Additive Manufacturing (AM) refers to a process by which digital 3D design data is used to build up a component in layers by depositing material. (from the International Committee F42 for Additive Manufacturing Technologies, ASTM)..

What You See Is What You Build (WYSIWYB) Process

Additive vs Subtractive Manufacturing
Part Complexity;
Material;
Speed;
Part Quantity;
Cost.

Additive vs Subtractive Manufacturing

Figure: Features that represent problems using CNC machining. Source: Gibson, Additive Manufacturing

Additive vs Forming Manufacturing

Advantages of Additive Manufacturing

Principle 1: Complexity is Free

Principle 2: Variety is Free

Principle 3: No Assembly Required

Principle 4: Zero Lead Time

Principle 5: Zero Constraints

Principle 6: Zero Skill Manufacturing

Principle 7: Compact & Portable Manufacturing

Principle 8: Less Waste By-product

Principle 9: Infinite Shades of Materials

Principle 10: Precise Replication

Source Google images

Current and Potential industries for Additive Manufacturing

Benefits

Source: SAVING project/Crucible Industrial Design Ltd.; Roland Berger

Benefits

Source: Roland Berger

Benefits

Source: Roland Berger

Future: Home Manufacturing

Old toothbrush

Customization: •Bristle hardness •Colour •Handle Style and shape •Etc.

Laser scanner to input personalized data Home 3D Printer

New toothbrush

Case Studies

Source: Royal Academy of Engineerin

Topics 1. Introduction: Introduction to manufacturing; evolution of manufacturing; importance of design in manufacturing. 2. Conventional Material Removal Processes: Theory of chip formations; generation of surfaces; force and power relationships; cutting tool material and its geometry; tool wear; fundamentals of machine tools; types of machining operations. 3. Unconventional Material Removal Processes: Introduction, mechanical energy processes, thermal energy processes, electro chemical machining.

Topics 4. Computer Numerical Control and Programming: Basics of numerically controlled machines; programming for NC machines; motion and coordinate system; structure of a NC part program; examples of part programming. 5. Microfabrication Processes: Silicon processing, lithography, micro and nanofabrication processes. 6. Layered/Generative Manufacturing Processes: Fundamentals of layered manufacturing; layered manufacturing technologies, modeling. 7. Engineering Metrology: Dimensions, tolerances, surfaces, structure and properties, surface texture and roughness, engineering metrology and instrumentation

Reference Books 1. Fundamental of Modern Manufacturing: Materials, Processes and Systems: M. P. Groover (John Wiley). 2. Manufacturing Processes for Engineering Materials: S. Kalpakliam and S. R. Schmid (Prentice Hall). 3. Manufacturing Science: A. Ghosh and A.K. Mallik (EastWest Press). 4. Fundamental of Manufacturing Processes: G. K. Lal and S. K. Choudhuary (Narosa). 5. Advanced Machining Processes: V. K. Jain (Allied Publishers). 6. Introduction to Micromachining: Ed. V. K. Jain (Narosa). 7. Micromanufacturing Processed: Ed.: V.K.Jain (CRC Press).

Lab

Themes 1. Agriculture, 2. Transportation, 3. Healthcare, 4. Educational toys to help school children, 5. Machines and Mechanisms. 45

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List of Tutors

Dr. J. Ramkumar

Dr. S. Bhattacharya

Dr. S.K. Choudhry

Mr. A. Kene

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List of Tutors and TAs Day

Tutor

TAs

Email

Monday

Dr. J. Ramkumar ([email protected])

Gaganpreet Singh (14105274) Atinder Pal Singh (14105268)

gaganprt atinder

Tuesday

Dr. S. Bhattacharya ([email protected])

Pankaj Singh Chauhan (14205263) Rupal Srivastava (14205265)

pankajs rupalsri

Wednesday

Dr. S.K. Choudhury ([email protected])

Kashfull Orra (13205071) Navneet Singh (12807436)

Kashu navneets

Thursday

N. Sinha ([email protected])

Kartikeya Dixit (14105279) Ashutosh Rai (14205002)

dkartik arai

Friday

Mr. A. Kene ([email protected] )

Raghubeer Singh Bangari (13205076) Vivek Chawda (12807829)

raghusb vchawda

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Grading Criteria Lab (45%)

Theory (55%) Details

Details

Quizzes

7%

Project Drawings

2.5%

Mid Semester Exam

18%

Lab Exercises

2.5%

End Semester Exam

30%

Lab Reports

2.5%

Guide’s Evaluation

2.5%

Attendance

5%

Mid Semester Evaluation

7.5%

End Semester Evaluation

22.5%

To pass this course, one should score total marks ≥ 35 % and theory marks ≥ 30 % of the marks assigned for theory. Academic Dishonesty: ZERO Tolerance  “F” Grade