Faculty of Mechanical Engineering

Plastics in engineering industry and vehicles design

* Exchange students do not have to consider this information when selecting suitable courses for an exchange stay.

Name of Lecturer(s)	Personal ID	Name
Course Unit Code	340-0569/02
Number of ECTS Credits Allocated	4 ECTS credits
Type of Course Unit *	Compulsory
Level of Course Unit *	Second Cycle
Year of Study *	First Year
Semester when the Course Unit is delivered	Summer Semester
Mode of Delivery	Face-to-face
Language of Instruction	Czech
Prerequisites and Co-Requisites	Course succeeds to compulsory courses of previous semester
	KOV12	doc. Dr. Ing. Ladislav Kovář
Summary
By studying of this subject students will learn about design and testing principles used in the designing of various parts made of plastics,tools of early quality planning tools and product eligibility including the principles of industrial design in the context of ergonomic requirements and the overall expediency and product eligibility. On examples of selected products for the automotive industry will be demonstrated context and demands of related disciplines such as optics and electronics.
Learning Outcomes of the Course Unit
The aim of study of the subject is to increase student´s knowledge about the use of plastics in general mechanical engineering as well as in design (construction) of cars. Students will learn about: • problems of designing a plastic products (design optimization from the view of production and assembly) • selected properties of plastic materials in terms of design, • temperature, strength and tolerance analysis, simulations and testing, • early planning tools of quality of plastic products • industrial design and ergonomics. On examples of selected products for the automotive industry (headlights and tail lamps) they will learn about the contexts and demands of related disciplines such as optics and electronics. They will acquire knowledge of principles and professional terminology from the perspective of the automotive industry.
Course Contents
Designed (2D/3D modelling, listings, optimalization construction from look production and final-assembly line, standard part, robust design …) Problems plastic material (technology injection, simulation filling tools (hollows) material, tool design, materials for polymers, decorative Defects …) Bases optometrists (legislative requirements, light source, certification and homologation …) Bases electronics for headlamp and rear associated lamp (LED technology, fieldbus, diagnostics …) Simulation, qualification product and testing procedure (thermal, solidity and tolerant analyses, kinematics, optimisation, 3D metering, plan for check draft plus news from testing procedure …) Tools well - timed planning qualities (tools qualities, analysis possible defects, their causes and consequences, benchmarking, brainstorming, DMAIC,) Industrial design (ergonomy, stylistics designs, visualization …)
Recommended or Required Reading
Required Reading:
1. Teaching materials of Hella Autotechnik. 2. http://www.mmspektrum.com/clan 3. HELLA KGAA HUECK & CO. Hella \| Homepage [online]. [2014] [cit. 2014-01-07]. available from: http://www.hella.com/hella-com/index.html?rdeLocaleAttr=en
1. Výukové materiály společnosti Hella Autotechnik. 2. http://www.mmspektrum.com/clan 3. HELLA KGAA HUECK & CO. Hella \| Homepage [online]. [2014] [cit. 2014-01-07]. Dostupné z: http://www.hella.com/hella-com/index.html?rdeLocaleAttr=en
Recommended Reading:
1. http://www.hella.com/hella-resources/caravan.html 2. HELLA KGAA HUECK & CO. Hella \| Bus [online]. [2014] [cit. 2014-01-07]. available from: http://www.hella.com/hella-resources/bus.html 3 CAMPO, E. The complete part design handbook: for injection molding of thermoplastics. Munich: Hanser Publishers, c2006, 870 s. ISBN 1-56990-375-1. 4 OSSWALD, Tim A, Lih-Sheng TURNG a Paul J GRAMANN. Injection molding handbook. 2nd ed. Munich: Carl Hanser Publishers, c2008, 764 s. ISBN 978-1-56990-420-6. 5 BEAUMONT, J.P.; NAGEL, R.; SHERMAN, R. Successful Injection Molding : Process, Design, and Simulation. Munich : Hanser, 2002. 362 s., 1 CD. ISBN 3-446-19433-9, ISBN 1-56990-291-7. 6 STAUBER, R a L VOLLRATH. Plastics in automotive engineering: exterior applications. 1st ed. Munich: Hanser Publishers, 2007, 407 s. ISBN 978-1-56990-406-0.
1. http://www.hella.com/hella-resources/caravan.html 2. HELLA KGAA HUECK & CO. Hella \| Bus [online]. [2014] [cit. 2014-01-07]. Dostupné z: http://www.hella.com/hella-resources/bus.html 3 CAMPO, E. The complete part design handbook: for injection molding of thermoplastics. Munich: Hanser Publishers, c2006, 870 s. ISBN 1-56990-375-1. 4 OSSWALD, Tim A, Lih-Sheng TURNG a Paul J GRAMANN. Injection molding handbook. 2nd ed. Munich: Carl Hanser Publishers, c2008, 764 s. ISBN 978-1-56990-420-6. 5 BEAUMONT, J.P.; NAGEL, R.; SHERMAN, R. Successful Injection Molding : Process, Design, and Simulation. Munich : Hanser, 2002. 362 s., 1 CD. ISBN 3-446-19433-9, ISBN 1-56990-291-7. 6 STAUBER, R a L VOLLRATH. Plastics in automotive engineering: exterior applications. 1st ed. Munich: Hanser Publishers, 2007, 407 s. ISBN 978-1-56990-406-0.
Planned learning activities and teaching methods
Lectures, Tutorials
Assesment methods and criteria
Task Title	Task Type		Maximum Number of Points (Act. for Subtasks)	Minimum Number of Points for Task Passing
Graded exercises evaluation	Graded credit		100	51