This course introduces the student to the intricacies of Computer-Aided Design (CAD) utilizing Creo Parametric. Throughout the course, students will acquire a comprehensive skill set encompassing sketching, solid part modeling, assembly modeling, drawing creation, advanced modeling techniques, sheet metal design, geometric dimensioning and tolerancing (GD&T), as well as mechanisms and finite element analysis (FEA). The curriculum commences with an introduction to Creo Parametric, offering insights into its interface, sketching tools, and parametric design principles. Subsequently, students engage in a detailed exploration of solid part modeling, mastering 3D modeling techniques. Assembly modeling follows, emphasizing constraints, relationship management, and collaborative design principles for large assemblies. Participants also gain proficiency in creating 2D engineering drawings, utilizing annotation tools, and adhering to dimensioning and tolerancing standards. The course progresses to advanced modeling, incorporating features like surfacing and other advanced modeling techniques for real-world engineering applications. Sheet metal design principles are introduced, covering unfolding, bending techniques, and design considerations unique to sheet metal components. Students learn symbols, standards, and the application of GD&T principles in CAD models. The exploration of CAD extends to mechanisms, incorporating kinematic analysis, modeling, simulation, and dynamic analysis. Finally, Finite Element Analysis (FEA) is introduced, covering basics, mesh generation, boundary conditions, and result interpretation. By the end of the course, students will be equipped with advanced skills in computer-aided design, positioning them for success in roles demanding proficiency in engineering design and analysis, especially using Creo Parametric but these skills extend to every CAD program.
Course Offerings
Open
Computer-Aided Design
01/21/2025 - 05/06/2025
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Open
Computer-Aided Design
01/21/2025 - 05/06/2025
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