Course detail

Application of Polymers in the Automotive Industry

FSI-HAP-KAcad. year: 2023/2024

The course focuses on the practical issues of the polymer component production in the automotive industry and the related requirements according to the ISO TS 16949. Some typical causes and solutions of defects occurring in polymer products produced by injection technology are analysed. The students will learn how to search and detect the defects of injected products, the causes of defects, the possibilities of their elimination and the ways of how to prevent the defects of these products in terms of structural design of the moulds. At the same time a practical overview of the subsequent connection of plastic products is done, where the students will be familiar with the most common ways of connecting parts in lighting technology, such as gluing and laser welding. The training systems reflecting the practical tasks of the glued and welded joints, subsequent testing techniques and the important factors affecting the quality of the connection will be presented. The essential part of the plastic materials is their surface finishes that will be presented in the form of painting and metallic nano-layered coatings, including the necessary pre-treatment of the surface before technological processes. Students will be learnt the problem of surface finishes not only in view of the visual final finish of plastic components, but also as an important physic-chemical or mechanical treatment of the surface with effect on surface integrity. Production of components made from polymers is in the automotive industry linked with the general principles applied onto the quality planning and the subsequent manufacturing process. Students will learn the methodology for the control and testing plans and the application of quality tools in the current practical application of the preparation work for the customer and certification audit, according to the automotive standard ISO TS 16949.

Language of instruction

Czech

Number of ECTS credits

Mode of study

Not applicable.

Guarantor

Ing. Jitka Stolínová, Ph.D.

Department

Institute of Manufacturing Technology (ÚST)

Entry knowledge

Basic knowledge of polymers and related processing technology, basic knowledge of metrology, mathematical statistics and planning of experiments.

Rules for evaluation and completion of the course

Completion of the course: graded credit
Student requirements: attendance + seminar work elaborated individually or in a team (according to the number of registered students)


All of exercise lesson are obligatory. The student’s own work and knowledge is assessed in practicals. According to the studied topic some lessons will be practicals - carried out in the lab, and some will be focused on the theory - calculations carried out in the classroom in a seminar form. Absence from seminars should be substituted for by attending a seminar with another study group or individually by the agreement with the teacher. Lessons may be occasionally inspected by the head of the department.

Aims

The course is conceived to enable the future engineers and specialists in the automotive industry to apply systematically the methods for the early planning of the quality and the methods for the experiments in designing of a product. Furthermore, a significant proportion of polymers and the associated process of planning, including the shortening the development cycle and the smooth launch of the series production is included. In terms of compliance with the qualitative requirements for the polymer components in the area of automotive industry, the part of the knowledge is to determine the causes of defects and related technological measurement for forming tools, and the knowledge of component connection made from polymers forming the final product.
Students are trained in manufacturing process of the parts made from polymers and in related specifics for the automotive industry. They will be able to determine the causes of product defects, to solve the follow-up measures in the press tools and to know the procedural relations within ISO TS 16949.

Study aids

Not applicable.

Prerequisites and corequisites

Not applicable.

Basic literature

BEAUMONT, John P. Runner and gating design handbook: tools for successful injection molding. 2nd ed. Munich: Hanser Publishers, c2007, xvi, 308 s. ISBN 978-1-56990-421-3.
BEAUMONT, J.P.; NAGEL, R.; SHERMAN, R. Successful Injection Molding : Process, Design, and Simulation. Munich : Hanser, 2002. xiii, 362 s., 1 CD. ISBN 3-446-19433-9, ISBN 1-56990-291-7.
BOBČÍK, Ladislav. Formy pro zpracování plastů : vstřikování termoplastů. Díl 1 . 2. upr. vyd. Brno : Uniplast, 1999. 133 s.
BOBČÍK, Ladislav. Formy pro zpracování plastů : vstřikování termoplastů. Díl 2 . 1. vyd. Brno : Uniplast, 1999. 214 s.
CAMPO, E. The complete part design handbook: for injection molding of thermoplastics. Munich: Hanser Publishers, c2006, xxi, 870 s. ISBN 1-56990-375-1.
DUCHÁČEK, Vratislav. Polymery: výroba, vlastnosti, zpracování, použití. Vyd. 2., přeprac. Praha: Vydavatelství VŠCHT, 2006, 278 s. ISBN 80-7080-617-6.
JOHANNABER, Friedrich. Injection molding machines: a user's guide. 4th ed. Munich: Carl Hanser Publishers, c2008, xii, 378 s. ISBN 978-1-56990-418-3.
KAMAL, Musa R, Avraam I ISAYEV a Shih-Jung LIU. Injection molding: technology and fundamentals. Munich: Hanser, c2009, xxviii, 926 s. ISBN 978-1-56990-434-3.
KAZMER, David. Injection mold design engineering. Munich: Hanser Publishers, c2007, xx, 423 s. ISBN 978-3-446-41266-8.
MALLOY, Robert A. Plastic part design for injection molding: an introduction. Munich: Hanser, 1994, 460 s. ISBN 1-56990-129-5.
MENGES, Georg, Walter MICHAELI a Paul MOHREN. How to make injection molds. 3rd ed. Munich: Hanser, c2001, xvii, 612 s. ISBN 3-446-21256-6.
MLEZIVA, Josef a Jaromír ŠŇUPÁREK. Polymery: výroba, struktura, vlastnosti a použití. 2. přeprac. vyd. Praha: Sobotáles, 2000, 537 s. ISBN 80-8592-072-7.
MORRISON, Faith A. Understanding rheology. New York: Oxford University Press, 2001, xiii, 545 s. ISBN 0195141660.
OSSWALD, Tim A a Georg MENGES. Materials science of polymers for engineers. 2nd ed. Munich: Hanser Publishers, c2003, xviii, 622 s. ISBN 1-56990-348-4.
OSSWALD, Tim A. International plastics handbook: the resource for plastics engineers. 4th ed. Munich: Hanser Publishers, c2006, xvii, 902 s. ISBN 978-1-56990-399-5.
OSSWALD, Tim A, Lih-Sheng TURNG a Paul J GRAMANN. Injection molding handbook. 2nd ed. Munich: Carl Hanser Publishers, c2008, xvii, 764 s. ISBN 978-1-56990-420-6
PÖTSCH, Gerd a Walter MICHAELI. Injection molding: an introduction. 2nd ed. Munich: Carl Hanser Publishers, c2008, x, 246 s. ISBN 978-1-56990-419-0.
REES, Herbert a Bruce CATOEN. Selecting injection molds: weighing cost vs productivity. Munich: Hanser Publishers, 2006, x, 230 s. ISBN 978-3-446-40308-6.
REES, Herbert. Mold engineering. 2nd ed. Munich: Hanser, c2002, xxiii, 688 s. ISBN 1-56990-322-0.
ROSATO, Dominick V, Donald V ROSATO a Marlene G ROSATO. Injection molding handbook. 3rd ed. Boston: Kluwer Academic Publishers, 2000, xxxi, 1457 s. ISBN 0792386191.
STAUBER, R a L VOLLRATH. Plastics in automotive engineering: exterior applications. 1st ed. Munich: Hanser Publishers, 2007, xv, 407 s. ISBN 978-1-56990-406-0.
UNGER, Peter. Gastrow injection molds: 130 proven designs. 4th ed. Munich: Hanser Publishers, 2006, x, 335 s. ISBN 1-56990-402-2.
VLČEK, Jiří a Miroslav MAŇAS. Aplikovaná reologie. Vyd. 1. Zlín: Univerzita Tomáše Bati ve Zlíně, 2001, 144 s. ISBN 80-7318-039-1.

Recommended reading

BEAUMONT, John P. Runner and gating design handbook: tools for successful injection molding. 2nd ed. Munich: Hanser Publishers, c2007, xvi, 308 s. ISBN 978-1-56990-421-3.
BEAUMONT, J.P.; NAGEL, R.; SHERMAN, R. Successful Injection Molding : Process, Design, and Simulation. Munich : Hanser, 2002. xiii, 362 s., 1 CD. ISBN 3-446-19433-9, ISBN 1-56990-291-7.
BOBČÍK, Ladislav. Formy pro zpracování plastů : vstřikování termoplastů. Díl 1 . 2. upr. vyd. Brno : Uniplast, 1999. 133 s.
BOBČÍK, Ladislav. Formy pro zpracování plastů : vstřikování termoplastů. Díl 2 . 1. vyd. Brno : Uniplast, 1999. 214 s.
CAMPO, E. The complete part design handbook: for injection molding of thermoplastics. Munich: Hanser Publishers, c2006, xxi, 870 s. ISBN 1-56990-375-1.
DUCHÁČEK, Vratislav. Polymery: výroba, vlastnosti, zpracování, použití. Vyd. 2., přeprac. Praha: Vydavatelství VŠCHT, 2006, 278 s. ISBN 80-7080-617-6.
JOHANNABER, Friedrich. Injection molding machines: a user's guide. 4th ed. Munich: Carl Hanser Publishers, c2008, xii, 378 s. ISBN 978-1-56990-418-3.
KAMAL, Musa R, Avraam I ISAYEV a Shih-Jung LIU. Injection molding: technology and fundamentals. Munich: Hanser, c2009, xxviii, 926 s. ISBN 978-1-56990-434-3.
KAZMER, David. Injection mold design engineering. Munich: Hanser Publishers, c2007, xx, 423 s. ISBN 978-3-446-41266-8.
MALLOY, Robert A. Plastic part design for injection molding: an introduction. Munich: Hanser, 1994, 460 s. ISBN 1-56990-129-5.
MENGES, Georg, Walter MICHAELI a Paul MOHREN. How to make injection molds. 3rd ed. Munich: Hanser, c2001, xvii, 612 s. ISBN 3-446-21256-6.
MLEZIVA, Josef a Jaromír ŠŇUPÁREK. Polymery: výroba, struktura, vlastnosti a použití. 2. přeprac. vyd. Praha: Sobotáles, 2000, 537 s. ISBN 80-8592-072-7.
MORRISON, Faith A. Understanding rheology. New York: Oxford University Press, 2001, xiii, 545 s. ISBN 0195141660.
OSSWALD, Tim A a Georg MENGES. Materials science of polymers for engineers. 2nd ed. Munich: Hanser Publishers, c2003, xviii, 622 s. ISBN 1-56990-348-4.
OSSWALD, Tim A. International plastics handbook: the resource for plastics engineers. 4th ed. Munich: Hanser Publishers, c2006, xvii, 902 s. ISBN 978-1-56990-399-5.
OSSWALD, Tim A, Lih-Sheng TURNG a Paul J GRAMANN. Injection molding handbook. 2nd ed. Munich: Carl Hanser Publishers, c2008, xvii, 764 s. ISBN 978-1-56990-420-6
PÖTSCH, Gerd a Walter MICHAELI. Injection molding: an introduction. 2nd ed. Munich: Carl Hanser Publishers, c2008, x, 246 s. ISBN 978-1-56990-419-0.
REES, Herbert a Bruce CATOEN. Selecting injection molds: weighing cost vs productivity. Munich: Hanser Publishers, 2006, x, 230 s. ISBN 978-3-446-40308-6.
REES, Herbert. Mold engineering. 2nd ed. Munich: Hanser, c2002, xxiii, 688 s. ISBN 1-56990-322-0.
ROSATO, Dominick V, Donald V ROSATO a Marlene G ROSATO. Injection molding handbook. 3rd ed. Boston: Kluwer Academic Publishers, 2000, xxxi, 1457 s. ISBN 0792386191.
STAUBER, R a L VOLLRATH. Plastics in automotive engineering: exterior applications. 1st ed. Munich: Hanser Publishers, 2007, xv, 407 s. ISBN 978-1-56990-406-0.
UNGER, Peter. Gastrow injection molds: 130 proven designs. 4th ed. Munich: Hanser Publishers, 2006, x, 335 s. ISBN 1-56990-402-2.
VLČEK, Jiří a Miroslav MAŇAS. Aplikovaná reologie. Vyd. 1. Zlín: Univerzita Tomáše Bati ve Zlíně, 2001, 144 s. ISBN 80-7318-039-1.

Classification of course in study plans

  • Programme N-STG-K Master's

    specialization MTS , 1 year of study, winter semester, compulsory

Type of course unit

 

Guided consultation in combined form of studies

17 hod., compulsory

Teacher / Lecturer

Ing. Jitka Stolínová, Ph.D.

Syllabus

1. Products produced by injection moulding
2. Defects of the injected products
3. Defects of the injected products in practise
4. Surface finish of plastic materials
5. Gluing and laser welding
6. Screw and other connections on headlights
7. Risk management and moderation techniques
8. Design and Process FMEA
9. Design of Experiments / Taguchi and Brainstorming
10. The creation of basic documents for the new workplace
11. Preparation for the release of workplace I
12. Preparation for the release of workplace II
13. The monitoring of the workplace in series production - efficiency etc.

Guided consultation

35 hod., optionally

Teacher / Lecturer

Ing. Jitka Stolínová, Ph.D.

Syllabus

1. Products produced by injection moulding
2. Defects of the injected products
3. Defects of the injected products in practise
4. Surface finish of plastic materials
5. Gluing and laser welding
6. Screw and other connections on headlights
7. Risk management and moderation techniques
8. Design and Process FMEA
9. Design of Experiments / Taguchi and Brainstorming
10. The creation of basic documents for the new workplace
11. Preparation for the release of workplace I
12. Preparation for the release of workplace II
13. The monitoring of the workplace in series production - efficiency etc.