Innovate with ANSYS Simulation Tools
In this course, you will experience the transformative power of engineering simulation with ANSYS through hands-on exercises.
Overview
This course includes:
- 2 hours of on-demand video
- Certificate of completion
- Direct access/chat with the instructor
- 100% self-paced online
In this course, you'll unlock the power of ANSYS simulation tools through engaging hands-on exercises. You'll gain practical experience with parametric designs and genetic optimization algorithms, as well as topology optimization for creating efficient, lightweight component shapes. This course is designed to help you tackle real-world engineering challenges with innovative solutions, enabling you to discover hidden patterns in models and make informed design decisions. Our interactive, learner-centered approach ensures a comprehensive and tailored learning experience that will enhance your expertise in mechanical analysis and design.
Skills You Will Gain
Learning Outcomes (At The End Of This Program, You Will Be Able To...)
- Use ANSYS software to perform simulations for structural analysis in engineering projects.
- Apply simulation methods to solve complex mechanical engineering problems involving stress analysis.
- Execute parametric designs using genetic optimization algorithms to enhance product design efficiency.
- Utilize topological optimization to design more efficient component shapes for lightweight structures.
Prerequisites
Participants should have a basic understanding of engineering principles and familiarity with simulation software. This foundational knowledge will help you engage more effectively with the course content and apply the advanced techniques covered.
Who Should Attend
This course is ideal for engineering students, professional engineers, simulation specialists, and researchers in engineering fields. Whether you're just beginning or looking to deepen your knowledge, the course offers valuable insights and practical skills to advance your expertise in engineering simulation and design.
