Advanced SolidWorks Training – Simulation & Assembly Engineering

This is not a basic CAD course.
Pertecnica Engineering’s Advanced SolidWorks – Simulation & Assembly Training is designed for engineers who want to move beyond modeling and start engineering performance, reliability, and real-world functionality into their designs.

Built on 15+ years of industry training expertise, this program focuses on how assemblies behave under real conditions—loads, motion, stress, and constraints—making it highly relevant for manufacturing, product development, and EPC environments.

Program Overview

Modern engineering demands more than drawing—it demands validation before manufacturing.

This program trains professionals to:

  • Build complex, multi-component assemblies
  • Simulate real-world operating conditions
  • Identify design failures before production
  • Optimize performance, weight, and cost

Participants learn how to convert designs into validated, production-ready engineering solutions.

What Makes This Training Different

Unlike conventional SolidWorks courses, this program focuses on:

  • Engineering thinking, not just software usage
  • Simulation-driven design decisions
  • Assembly-level problem solving
  • Failure prediction and prevention
  • Industrial project-based learning

Core Learning Outcomes

By the end of the program, participants will be able to:

  • Design and manage complex assemblies with real-world constraints
  • Perform structural and motion simulations
  • Analyze stress, deformation, and failure points
  • Optimize designs for performance and manufacturability
  • Validate designs before fabrication
  • Reduce rework, material waste, and design errors

Program Curriculum

Module 1: Advanced Assembly Engineering

  • Large assembly management
  • Top-down vs bottom-up design
  • Advanced mates and constraints
  • Configuration-driven assemblies

Module 2: Assembly Performance Analysis

  • Interference detection and clearance analysis
  • Tolerance stack-up concepts
  • Fit and functional validation

Module 3: Motion Simulation

  • Motion studies (basic to advanced)
  • Kinematics and dynamics
  • Force, velocity, and displacement analysis

Module 4: Structural Simulation (FEA Basics)

  • Stress and strain analysis
  • Load and boundary conditions
  • Factor of safety evaluation

Module 5: Design Optimization

  • Weight reduction strategies
  • Material selection insights
  • Performance vs cost optimization

Module 6: Failure Analysis & Troubleshooting

  • Identifying weak points in assemblies
  • Design correction techniques
  • Preventive design strategies

Module 7: Industrial Project Application

  • Real-world assembly design case study
  • Simulation-based validation
  • Final design review and improvement

How the Training is Delivered

  • Scenario-based engineering sessions
  • Hands-on simulation exercises
  • Industrial case studies
  • Design validation workshops

This ensures participants don’t just learn tools—they learn how engineers actually solve problems in industry.

Who This Program is For

  • Mechanical Design Engineers
  • Product Development Engineers
  • R&D Engineers
  • Manufacturing Engineers
  • CAD Professionals upgrading to simulation
  • EPC Design Engineers

Prerequisites

  • Working knowledge of SolidWorks (basic modeling & assemblies)
  • Understanding of mechanical fundamentals

Post-Training Impact

For Professionals

  • Move from “designer” to design engineer
  • Ability to validate designs before production
  • Strong capability in simulation-driven decision making
  • Increased value in product development roles

For Organizations

  • Reduced design failures and rework
  • Faster product development cycles
  • Improved product reliability
  • Lower material and manufacturing costs

Certification

Participants receive a Professional Certification from Pertecnica Engineering, recognizing their capability in advanced assembly design and simulation using SolidWorks.

Why Corporates Choose Pertecnica

  • Focus on practical engineering application, not just software
  • Trainers with real project and product design experience
  • Programs aligned with manufacturing and EPC requirements
  • Proven impact on workforce performance

Industries Where This Matters Most

  • Manufacturing & Product Development
  • Automotive & Heavy Engineering
  • Aerospace & Precision Engineering
  • Industrial Equipment Design
  • EPC & Engineering Consultancy

Call to Action

If your team is still designing without validating, you are accepting risk.
Upgrade your engineering capability with simulation-driven design expertise.