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Who Should Attend
- Undergraduate students pursuing Mechanical, Aerospace, Electrical Engineering, or related fields
- High school students with an interest in physics, engineering, and simulation
- Aspiring engineers and designers looking to acquire practical simulation skills
- Engineers and professionals seeking to improve their expertise in simulation for product design, testing, and optimization
What You Will Learn
- Fundamentals of ANSYS and its simulation environment
- Structural analysis: stress, strain, and deformation of materials
- Thermal analysis: conduction, convection, and radiation in systems
- Fluid dynamics simulations: fluid flow, turbulence, and heat transfer
- Electromagnetic simulations: electrical fields, currents, and electromagnetic forces
- Best practices for finite element analysis (FEA) and computational fluid dynamics (CFD)
- Post-processing techniques for interpreting simulation results
Course Structure
The course is organized into structured modules covering essential aspects of simulation. It includes both theoretical knowledge and hands-on projects, ensuring participants can model and simulate real-world systems effectively.
Course Duration
The course runs for 10 weeks, with weekly sessions totaling approximately 30 hours. Each week includes lectures, practical lab work, and project assignments to solidify the learning experience.
Course Prerequisites
- Basic knowledge of engineering principles and physics
- Familiarity with using computers and engineering software
- No prior experience with ANSYS is required
Course Module
- Overview of ANSYS Workbench and its applications
- Basic setup and workflow for simulations
- Importing CAD models, creating geometry within ANSYS
- Mesh generation, refinement, and optimization techniques
- Static structural simulations: forces, stress, and deformation analysis
- Material selection, boundary conditions, and load applications
- Modal analysis: natural frequencies and mode shapes
- Steady-state and transient thermal simulations
- Heat transfer analysis: conduction, convection, and radiation modeling
- Coupled thermal-structural simulations for thermal stress evaluation
- Computational Fluid Dynamics (CFD) basics: fluid flow, pressure, and turbulence modeling
- Heat transfer in fluids: convection and thermal mixing
- Flow simulations in pipes, valves, and mechanical components
- Simulating electromagnetic fields and currents
- Applications for motors, sensors, and antennas
- Nonlinear material behavior: plasticity, creep, and hyperelasticity
- Dynamic simulations for time-varying forces and transient responses
- Crash simulations and impact analysis
- Optimization techniques for design refinement and performance improvement
- DOE for testing multiple design variables and scenarios
- Parametric studies to evaluate performance under varying conditions
- Post-processing simulation results: stress plots, deformation, flow patterns
- Generating reports, interpreting data, and drawing engineering conclusions
- Comparative analysis between different design iterations
- Real-world case studies from automotive, aerospace, and electronics industries
- Best practices for integrating ANSYS into the design and manufacturing process
- Insights into career paths in simulation and analysis
Why Enroll in This Course
- Comprehensive Simulation Expertise: Learn to simulate a wide range of physical phenomena, from structural mechanics to fluid dynamics and electromagnetics.
- Industry-Relevant Skills: Acquire hands-on experience with ANSYS, a leading tool in simulation used by professionals worldwide.
- Expert Instruction: Benefit from instructors with real-world experience in simulation, design, and analysis.
- Career Growth: Equip yourself with simulation skills that are in high demand in industries like automotive, aerospace, energy, and electronics.
- Hands-On Projects: Engage in real-world simulation projects and case studies to build your portfolio.
- Professional Development: Engineers can enhance their current skill set or transition into roles involving advanced simulation and product testing.
Teaching Methodology
- Lectures: In-class sessions for theory
- Hands-On Practice: Build circuits and work with real-world components
- Practical Projects: Industry-relevant mini-projects to enhance learning
- Assessment: Quizzes, project work, and a final evaluation to ensure understanding
Course Certification
Upon successful completion, students will receive a Certificate of Completion demonstrating their proficiency in good practices and safety in electronics and electrical engineering.
Instructor Information
This course is taught by experienced professionals in electronics and electrical engineering, with a focus on practical, real-world skills.
How to Enroll?
To enroll in this course, visit our registration page or contact us at admin@ssitraininginfo.com, 0422-2209999