SolidWorks is a leading 3D CAD software widely used by engineers and designers across various industries, including automotive, aerospace, and manufacturing, to create precise product models. It allows users to design, simulate, and analyze parts and assemblies with a focus on functionality and manufacturability.
With powerful tools for 3D modeling, stress testing, motion analysis, and technical drawing creation, SolidWorks enhances design efficiency and ensures high-quality, cost-effective solutions. As industries demand faster time-to-market and better product performance, skilled SolidWorks professionals are in high demand across design firms, manufacturing companies, and product development teams.
Field Scope & Importance
- Precision 3D Modeling
- Enhanced Product Performance
- Streamlined Product Development
- Cost-Efficient Design for Manufacturing
- Collaboration & Integration
- Industry-Wide Demand for Expertise
Working Steps for Solid Works
Sketching
Begin by creating 2D sketches using lines, arcs, and geometric shapes on a drawing plane. These sketches form the foundation of your 3D model.
Feature Creation
Convert sketches into 3D parts using features like extrude, revolve, or sweep. Apply cuts and patterns to shape the model.
Assembly
Combine multiple parts into an assembly by applying mates and constraints. This step helps simulate the interaction between components.
Drawing & Detailing
Generate 2D engineering drawings from the 3D model with dimensions, annotations, and bill of materials for manufacturing.
Curriculum
- Basics & Introduction
- Sketching with SolidWorks
- Part Modeling
- Advanced Part Modeling
- Assembly Mode
- Generating detail drawings from Model
- Surface Modeling / Sheet Metal
- Add-on Modules
Core Function of Solid Works
Process Safety Compliance
Simulate dynamic scenarios like pressure surges and relief events to meet HAZOP and safety integrity requirements. Ensure safer plant designs that comply with industry safety standards.
Environmental Regulations & Emissions Control
Model and monitor pollutant emissions to meet local and international environmental compliance standards. Support sustainability goals through accurate environmental impact assessments.
Design Validation with International Codes
Perform simulations aligned with API, ASME, and IEC standards to ensure equipment sizing and operations are code-compliant. Reduce design errors and improve audit readiness.
Energy Efficiency Audits
Use HYSYS to assess and certify process energy usage against global benchmarks like ISO 50001. Demonstrate compliance with corporate and regulatory energy mandates.
Document for Regulatory Review
Generate comprehensive reports including mass and energy balances, PFDs, and dynamic simulations. Ensure all project documents meet inspection and regulatory submission standards.
Compliance in Process Control Strategy
Simulate control loops, alarms, and interlocks to meet functional safety and control system regulations. Improve reliability and maintain compliance throughout the plant lifecycle.
