Program Overview

Program Overview

The CATIA Industrial Product Design and Modeling program is a 2-month course that aims to equip participants with the necessary CAD skills for industrial product design processes.

Program Details

• Course Code and Name: BELTEK - 26-2-784 CATIA Industrial Product Design and Modeling
• Course Content and Objective: The course introduces participants to the CATIA software, which is widely used in the defense, aviation, and automotive industries. It covers solid modeling, surface modeling, assembly, and technical drawing processes.
• Acquired Competencies: Participants will gain product design capabilities in the CATIA environment, including mechanical design, surface modeling, assembly modeling, and technical drawing.
• Employment Areas and Qualifications: The course is relevant to all industries involved in product design and production processes.
• Teaching Methods and Techniques: The course combines theoretical explanations with practical applications.
• Assessment and Evaluation: The course assessment consists of two exams, with the first exam accounting for 60% and the second exam accounting for 40% of the final grade.
• Participant Criteria: Participants must have a high school diploma and basic computer skills.
• Number of Participants: The course is limited to 20 participants.
• Course Duration: The course lasts 2 months (8 weeks), with 3 days of classes per week, totaling 72 hours.

Weekly Course Content

• Week 1: Interface Training - Program installation, access to work environments, mouse and keyboard usage, interface information, and general toolbar features.
• Week 2: Work Environment - Creating two-dimensional wireframe elements, introducing work environment interfaces, and exploring the capabilities of tools like Profile, Operation, and Contraints.
• Week 3: Part Design Work Environment - Introducing three-dimensional solid modeling approaches, including sketch-based and surface-based modeling.
• Week 4: Wireframe and Surface Work Environment - Creating three-dimensional wireframe geometries, using auxiliary elements in solid modeling approaches, and introducing basic surface modeling approaches.
• Week 5: Generative Shape Design Work Environment
• Week 6: Generative Shape Design Work Environment - Advanced surface modeling approaches and parametric modeling approaches.
• Week 7: Assembly Design Work Environment - Preparing assembly parts.
• Week 8: Work Environment - Preparing technical drawings for the production of three-dimensional models.

Categories

• The program falls under the category of Industrial Design Technologies, which is one of the many categories offered, including:
  • Computer Technologies
  • Electrical-Electronic Technologies
  • Construction Technologies
  • Woodworking Technologies
  • Metal Technologies
  • Machine Technologies
  • Personal Development Courses
  • Energy Systems Technologies