SOLIDWORKS is a software tool that is used right from the conceptualization of the design until the final manufacturing of the product. As the world's leading tool in designing, it supports interactive learning of 3D modelling. The implementation of such software can lend several benefits to the users, such as:
● Shortened Design Cycle
● Increased Productivity of Engineers and Designer
● Faster Deliver Innovative Products
The Ansys finite element solvers enable a breadth and depth of capabilities unmatched by anyone in the world of computer-aided simulation. Thermal, Structural, Acoustic, Piezoelectric, Electrostatic and Circuit Coupled Electromagnetic are just an example of what can be simulated. Regardless of the type of simulation, each model is represented by a powerful scripting language … the Ansys Parametric Design Language (APDL). APDL is the foundation for all sophisticated features, many of which are not exposed in the Workbench Mechanical user interface. It also offers many conveniences such as parameterization, macros, branching and looping, and complex math operations. All these benefits are accessible within the Ansys Mechanical APDL user interface.
This course introduces new users, or experienced Ansys Mechanical users, to the Ansys Mechanical APDL user interface. The Mechanical APDL workflow, graphical user interface, and APDL command syntax will be introduced. With this foundation in place, users can apply this knowledge to efficiently set up, solve, and post-process virtually any type of analysis.
The course aims to give students and professionals the essentials that are needed to become a certified SOLIDWORKS & ANSYS associate. The course will help individuals use the software with confidence and design/draft the next innovative thing.
SOLIDWORKS is used internationally by millions of companies
● The software grants the designer, ability to import data, store it securely while maintaining flexibility and accessibility
● Designers and engineers categorize SOLIDWORKS as an innovative way to accept project challenges
After completing this course, You will Comfortably navigate the Mechanical user interface and apply a proven workflow for creating, solving, and post-processing 2-D and 3-D finite element models.
Import and/or create geometry as needed for the creation of their simulation model.
Use Selection Logic to efficiently operate on sub-regions of a model for meshing, loading, and post-processing.
Understand the concept of element attributes and apply it to building effective, efficient meshes using beam, shell, and solid elements.
Build complex interactions among model regions through contact, coupling, constraint equations, and bolt/gasket interfaces.
Introduction on FEA, ANSYS Workbench GUI and Meshing.
Static and Dynamic structural Analysis
CAD Modelling and Animation – To develop 3D, animated movie of product design.
Assembly Design – To design parts and assemble them.
Sheet Metal Design – To design parts which are to be fabricated with sheet metal.
Costing – To check the value of design against manufacturing cost.
Product Data Management – To repurpose design data in a safe manner.
Weldment Design – To model welded structures with standard structural members.
Tolerance Analysis - To analyze the tolerance level of each part individually and of parts when functioning collectively.
CAD Library – To turn up productivity by using CAD library.
Interference Check – To check how all the parts fit among themselves and operate according to the requirement.
- Mobile/Laptop/Tablet with good internet connectivity.
- Interest in learning design using CAD & CAE software.
- 36 Lessons
- 18:35:00 Hours
One of the best programs available online.
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