Inhalt: Originally developed by NASA, NASTRAN is a finite element analysis (FEA) system used for structural analysis in the automotive, aerospace, and marine industries. Now you can leverage the power of NASTRAN for product design and manufacturing with Nastran In-CAD, the FEA toolset embedded in Autodesk Inventor. This course teaches the fundamentals of dynamics analysis with Nastran In-CAD. With fully worked examples and numerous hints and tips, the course helps you assess your CAD models for critical resonant frequencies. Instructor Tony Abbey also explains how to perform transient and frequency response analysis, and how to qualify your models under these dynamic operating conditions. Umfang: 02:47:54.00
Inhalt: Learn how to perform dynamic analysis using SOLIDWORKS Simulation. The course starts by covering dynamics theory and normal modes analysis. Dynamic analysis concepts are covered, including damping, mass participation, modal methods, and direct methods. Next, transient analysis is explored, including modal transient response, direct transient response, and base motion in dynamic response. Then, frequency response analysis, followed by how to interpret results. Umfang: 02:40:00.00
Inhalt: Before parts can be manufactured, SOLIDWORKS designers need to perform advanced stress analysis using simulations. This process is called finite element analysis or FEA. Join instructor Tony Abbey in this course, as he teaches this vital skill using the rich simulation features in SOLIDWORKS Premium 2018. Learn how to break up and mesh models, set loads and boundary conditions, and fix and re-mesh geometry. Explore the 3-2-1 and plane strain methods for measuring stress and displacement. After optimizing each design, Tony runs an analysis and compares the before and after results so you can see how the stress is reduced. Umfang: 01:52:01.00
Inhalt: Much of CAD design uses 3D elements for finite element analysis (FEA) simulation. However, sometimes thin-walled or frame-like structures dominate. In these cases, shell (2D) and beam (1D) elements can represent designs more effectively. Across all industries, as much as 50% of the design of major engineering projects fall into these categories. In this course, instructor Tony Abbey explains how to work with shell and beam models in SOLIDWORKS. Learn when to use shell, beam, and specialized truss elements; understand the fundamentals of modeling with them; and find out how to mesh, postprocess, and model components with these tools. Tony shows how to set up and run these FEA simulations to test the integrity of your designs and view results such as stress, force, and displacement. Umfang: 01:22:37.00
Inhalt: SOLIDWORKS Simulation offers tools that can help you test your designs and determine how to best enhance the quality of your products. In order to perform effective stress analysis, designers need to know not only the SOLIDWORKS Simulation user interface, but also the methodology and application of finite element analysis (FEA) in general. This course introduces how to set up a model for FEA analysis, run the analysis, and interpret the results to optimize your SOLIDWORKS models. Upon completing this course, you'll have the knowledge you need to carry out FEA with confidence. Umfang: 02:29:52.00
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