Course Is already available in your account
You Dont Have Access Of Add to cart course
Advanced Surfacing Course in CATIA V5
Foundation Course - Automotive Plastic Part Design using CATIA V5
Project - Automotive Plastic Floor Console in CATIA V5
Plastic CAD Test Course 1 in CATIA V5 - Total 15 CAD Tests
Applied course in tolerance stack up - Beginner
Advanced Surfacing Course in UG-NX
Foundation Course - Automotive Plastic Part Design using UG-NX
Project - Automotive plastic floor console design - UGNX
Plastic CAD Test Course 1 in UG-NX - Total 15 CAD Tests
Project - Automotive plastic door trim Design 1 - Catia V5
Plastic CAD test Course 2 - Catia V5 - (15 CAD test)
Project - Automotive Plastic Door Trim Design 1 in UG-NX
Plastic CAD test Course 2 - UGNX - (15 CAD test)
Project - Automotive Plastic B Pillar Trim in CATIA V5
Project - Automotive Headliner (OHS) Soft Trim in CATIA V5
Project - Automotive Plastic B Pillar Trim in UG-NX
Project - Automotive Headliner (OHS) Soft Trim in UG-NX
By providing in-depth knowledge of design principles and manufacturing techniques specific to automotive plastic components.Through practical projects that allow students to apply their learning to real-world scenarios.
a) Proficiency in Computer-Aided Design (CAD) software for precise and innovative design creation. b) In-depth understanding of material science and its application in automotive plastic product design. c) Knowledge of design principles for aesthetics, functionality, safety, and sustainability. d) Expertise in mold flow analysis to optimize the manufacturing process of automotive plastic components. e) Ability to apply design for manufacturability principles to ensure efficient production of automotive plastic products.
4.7
(2451)
4.8
(2148)
4.5
(1845)
(1478)
This course offers an in-depth exploration of the design principles, manufacturing techniques, and material selection specific to automotive plastic components, ensuring graduates are well-prepared to tackle industry challenges. Students will engage in practical projects throughout the course, allowing them to apply their learning to real-world scenarios and gain hands-on experience in designing automotive plastic products. The program places a strong emphasis on Computer-Aided Design (CAD) and provides students with rigorous training and testing in this essential skill set. Through CAD tests, students will develop proficiency in using industry-standard software to create precise and innovative designs for automotive plastic products, enhancing their employability in the competitive automotive industry. In addition to CAD, students will also explore the principles of product engineering, including aspects such as aesthetics, functionality, safety, and sustainability, to ensure their designs meet industry standards and market demands.
Get access of 20 courses absolutely for free !