# SolidWorks > Join Edoxi's 30-hour online SolidWorks Course and gain skills to use SolidWorks software for mechanical design, product development, and documentation. ## Course Details - Rating: 4.9/5 (41 reviews) - Category: Technical & Creative Design - Sub-Category: MEP Design ## Course Introduction Edoxi’s 30-hour Online SolidWorks Course builds your expertise in using SolidWorks software for advanced 3D modelling and parametric design. The course covers sketching, assemblies, sheet metal design, simulation, drafting, and design validation. You will learn 3D CAD modelling, parametric design, and advanced engineering applications. The class includes industry-relevant projects in engineering, construction, and manufacturing sectors. Training in SolidWorks tools, including Hole Wizard, GD&T, and FEA simulations, is provided. Upon course completion, you will receive a Course Completion Certification. Enrol now and gain practical skills for roles such as CAD Technician, Product Developer, or Mechanical Designer.  ## Course Overview - Delivery Modes: Online - Course Duration: 30 hours - Corporate Days: 6 days - Learners Enrolled: 50+ - Module: 7 ## What You'll Learn from the Online SolidWorks Course? **3D Modelling and Parametric Design** master fundamental sketching techniques and create parametric models using feature-based modelling approaches. **Assembly Creation and Configuration** Learn to develop complex assemblies, manage component relationships, and create multiple design configurations. **Sheet Metal and Weldment Design** Gain expertise in specialised design tools for sheet metal components and weldment structures used in industrial applications. **Simulation and Flow Simulation (CFD)** Learn to conduct finite element analysis (FEA) to validate designs and perform stress-strain analysis. **Technical Documentation and Drafting** Create detailed engineering drawings, generate Bills of Materials (BOM), and apply GD&T principles. **Model Analysis and Design Validation** Learn to perform advanced analysis of parts and assemblies, ensuring designs meet manufacturing and functional requirements. ## About This Course ## About Our Online SolidWorks Course SolidWorks is a popular CAD software used by Engineers and designers daily for critical manufacturing and design projects. Edoxi’s 30-hour Online SolidWorks Course aims to equip you with the skills needed to leverage SolidWorks software in various industries. The course will enhance your ability to innovate and streamline product development processes. In today’s dynamic construction and infrastructure sectors, SolidWorks' advanced modelling capabilities are crucial. Throughout Edoxi’s Online SolidWorks course, you will learn how to use SolidWorks to create complex architectural components and mechanical systems. Our SolidWorks Course curriculum covers essential features like precise sheet metal design and structural analysis, which are crucial for meeting the demands of modern building requirements. You will explore integrated Product Lifecycle Management (PLM) systems and advanced surface design capabilities, including the Power Surfacing add-in for creating complex shapes. Our SolidWorks course will also cover specialised features such as the Hole Wizard, enabling you to create precise manufacturing specifications. The demand for SolidWorks expertise is growing, particularly among major automotive and aerospace companies. This course will prepare you for exciting opportunities in these expanding sectors by enhancing your proficiency in prototyping and component design using SolidWorks. By mastering the SolidWorks software, engineers will significantly improve their career prospects across the manufacturing, construction, and industrial design markets. Join Edoxi’s online SolidWorks Course and unlock your potential and drive innovation in dynamic industries.  Read More ## Features of the Online SolidWorks Course **Real-Time Design Validation** You will practice design iterations with instant feedback, helping you identify and resolve issues during the modelling process. **Industry-Specific Project Portfolio** You will build a professional portfolio through projects in automotive, machinery, or architectural components. **Cross-Platform Compatibility Training** You will learn to work with designs across different platforms and formats, essential for collaboration in modern engineering environments. Also master file management and design sharing protocols. **Advanced Visualization Tools** You will get access to cutting-edge rendering and visualization features to create photorealistic models. You get to present your designs professionally using SolidWorks' advanced presentation capabilities. **Design Automation Workflows** You will master time-saving automation tools for repetitive design tasks. Learn to create and modify design tables, configurations, and parametric relationships efficiently. **Manufacturing-Ready Output** You get to generate precise manufacturing documentation, including detailed drawings and BOMs. Practice creating output that meets industrial manufacturing standards. ## Who Can Join Our SolidWorks Course? **Design Engineers & CAD Professionals** Working engineers and CAD professionals who want to enhance their software expertise in SolidWorks. **Mechanical Engineering Students** Engineering students seeking to complement their academic knowledge with practical CAD skills. **Product Developers & Industrial Designers** Professionals involved in product development who need to create, validate, and document designs. **Structural Design Teams** Designers in construction and infrastructure who want to leverage SolidWorks for complex structural components. **Manufacturing Professionals** Individuals working in manufacturing who want to design, create technical documentation and validate product designs. **Career Transitioners** Professionals from related technical fields looking to move into CAD design roles. ## SolidWorks Course Modules ### Module 1: Introduction to SolidWorks **Chapter 1.1: Overview of SolidWorks** - Lesson 1.1.1: Introduction to SolidWorks and its Applications - Lesson 1.1.2: Understanding the SolidWorks user interface and navigation - Lesson 1.1.3: Customizing the workspace and toolbars **Chapter 1.2: File Management in SolidWorks** - Lesson 1.2.1: Creating, opening, and saving SolidWorks files - Lesson 1.2.2: Understanding file types and version compatibility - Lesson 1.2.3: Organizing projects and file referencing ### Module 2: 3D Modeling and Sketching Fundamentals **Chapter 2.1: Sketching Basics** - Lesson 2.1.1: Understanding sketch entities (lines, arcs, circles, polygons) - Lesson 2.1.2: Using relations and dimensions in sketches - Lesson 2.1.3: Constraints and best practices for fully defined sketches **Chapter 2.2: 3D Feature Creation** - Lesson 2.2.1: Extrude, Revolve, Sweep, and Loft features - Lesson 2.2.2: Understanding feature tree and design intent - Lesson 2.2.3: Applying fillets, chamfers, and shell features **Chapter 2.3: Editing and Modifying Models** - Lesson 2.3.1: Using parametric design tools for modifications - Lesson 2.3.2: Understanding feature dependencies and rollback - Lesson 2.3.3: Utilizing equations and global variables ### Module 3: Parametric Design Principles **Chapter 3.1: Understanding Parametric Design** - Lesson 3.1.1: What is parametric modelling? - Lesson 3.1.2: Constraints and relations in parametric design - Lesson 3.1.3: Design intent and best practices **Chapter 3.2: Using Equations and Design Tables** - Lesson 3.2.1: Creating and managing equations for parametric control - Lesson 3.2.2: Using design tables for part variations - Lesson 3.2.3: Linking dimensions and automating changes **Chapter 3.3: Configuration Management** - Lesson 3.3.1: Creating multiple part configurations - Lesson 3.3.2: Managing assembly configurations - Lesson 3.3.3: Using Design Automation Tools ### Module 4: Assembly and Part Configurations **Chapter 4.1: Creating Assemblies** - Lesson 4.1.1: Understanding assembly structure and components - Lesson 4.1.2: Applying mates and constraints - Lesson 4.1.3: Managing part relationships **Chapter 4.2: Advanced Assembly Techniques** - Lesson 4.2.1: Using sub-assemblies and exploded views - Lesson 4.2.2: Interference detection and collision detection - Lesson 4.2.3: Motion analysis and animations **Chapter 4.3: Configurations and Design Variants** - Lesson 4.3.1: Creating and managing assembly configurations - Lesson 4.3.2: Using configurations for design iterations - Lesson 4.3.3: Applying design tables in assemblies ### Module 5: Sheet Metal and Weldment Design **Chapter 5.1: Introduction to Sheet Metal Design** - Lesson 5.1.1: Understanding Sheet Metal Design Workflow - Lesson 5.1.2: Creating base flanges, bends, and forming tools - Lesson 5.1.3: Unfolding and flattening sheet metal parts **Chapter 5.2: Advanced Sheet Metal Techniques** - Lesson 5.2.1: Working with multi-body sheet metal parts - Lesson 5.2.2: Creating Custom Forming Tools - Lesson 5.2.3: Sheet Metal Design Best Practices **Chapter 5.3: Weldment Design** - Lesson 5.3.1: Introduction to weldment tools - Lesson 5.3.2: Creating structural members and frames - Lesson 5.3.3: Working with cut lists and weldment profiles ### Module 6: Simulation and Structural Analysis **Chapter 6.1: Introduction to SolidWorks Simulation** - Lesson 6.1.1: Overview of FEA (Finite Element Analysis) - Lesson 6.1.2: Setting up a basic simulation study - Lesson 6.1.3: Understanding boundary conditions and loads **Chapter 6.2: Stress and Strain Analysis** - Lesson 6.2.1: Applying material properties - Lesson 6.2.2: Running static stress analysis - Lesson 6.2.3: Evaluating results and safety factors **Chapter 6.3: Thermal and Motion Analysis** - Lesson 6.3.1: Introduction to thermal analysis - Lesson 6.3.2: Basics of motion studies - Lesson 6.3.3: Using sensors and optimization tools ### Module 7: Drafting and Technical Drawings **Chapter 7.1: Creating 2D Drawings** - Lesson 7.1.1: Generating 2D views from 3D models - Lesson 7.1.2: Adding dimensions and annotations - Lesson 7.1.3: Understanding drawing templates and standards **Chapter 7.2: Advanced Drafting Techniques** - Lesson 7.2.1: Section views, detailed views, and exploded views - Lesson 7.2.2: Working with sheet formats and title blocks - Lesson 7.2.3: GD&T (Geometric Dimensioning and Tolerancing) basics **Chapter 7.3: Printing and Exporting Drawings** - Lesson 7.3.1: Exporting to PDF, DXF, and other formats - Lesson 7.3.2: Batch printing and plotting settings - Lesson 7.3.3: Sharing and collaborating on drawings ## Hands-On Lab Activities **Automotive Component Design** Part modelling of vehicle components, students progress through the complete design process, from initial sketching to final technical documentation. **Industrial Machine Assembly** Design and assemble complex machine components, applying assembly constraints and creating motion studies. **Model Analysis Implementation** Conduct a structural analysis on designed components to validate their performance under real-world conditions. **Technical Documentation Development** Create comprehensive technical drawings and documentation packages for manufactured parts. Practice implementing GD&T principles and generating detailed Bills of Materials for production use. ## SolidWorks Course Outcome and Career Opportunities Proficiency in using SolidWorks software will open up diverse career paths in the engineering and manufacturing sectors. These job roles offer excellent growth potential and opportunities to work with leading organisations across multiple industries. Here are a few training outcomes that you can expect after completing our SolidWorks course; - You will demonstrate your competency with multiple drawing and modification commands in SolidWorks. - You will learn to create three-dimensional solid models. - You will create three-dimensional assemblies incorporating multiple solid models. - You will apply industry standards in the preparation of technical mechanical drawings. - You will develop advanced modelling skills like sheet metal design, surface modelling, and structural analysis. - You will become proficient in tools that reduce design iteration time by up to 35%, improving efficiency and reducing costs ## Career Opportunities After the SolidWorks Course CAD Technician, Junior Design Engineer, Draughtsman, Mechanical Designer, Product Development Engineer, Design Manager, Manufacturing Engineer ## SolidWorks Training Options **Live Online Training** - 30-hour online SolidWorks Training - Live interactive sessions with real-time instruction - Direct software practice with instructor guidance - Session recordings for revision and reference - Flexible scheduling options - Live Q&A and problem-solving support **Corporate Training** - 4-day Customised Corporate Training - Customizable curriculum for company needs - Flexible scheduling for minimal business disruption - Training at the client’s site, hotel or Edoxi - Focus on industry-specific applications ## How to Get Your SolidWorks Certification? Here’s a four-step guide to becoming a certified SolidWorks professional. 1. Join Edoxi’s SolidWorks training 2. Attend SolidWorks training led by expert trainers 3. Complete the SolidWorks course projects and case studies 4. Get a Course Completion Certificate from Edoxi ## Why Choose Edoxi for Online SolidWorks Training? Here are a few reasons why you should choose Edoxi for SolidWorks Training; **Structured Learning Progression** You will follow a systematic path from basic modelling to advanced design validation. Therefore, master each concept thoroughly through our carefully planned curriculum. **Small Batch Sizes** You can choose to learn in groups of 3-5 students or choose one-to-one training. Receive personalised attention and detailed feedback on your design work. **Flexible Learning Options** Choose from evening weekday sessions or weekend classes. Access live online instruction with interactive design reviews to fit your schedule. **Industry Focus** Learn SolidWorks applications specific to engineering and manufacturing needs. Practice skills directly applicable to local industry requirements. ## Frequently Asked Questions **Q: What are the prerequisites needed to join Edoxi’s SolidWorks course?** A: No specific prerequisites are required to join this SolidWorks course. Basic computer proficiency is helpful, but our course is structured to support complete beginners. We provide comprehensive guidance from foundational concepts to advanced applications, ensuring all learners can progress effectively regardless of their starting point. **Q: What makes SolidWorks the best choice for CAD design?** A: SolidWorks is highly user-friendly and particularly effective for sheet metal designs. Its intuitive interface and comprehensive toolset make it the preferred choice for product development and manufacturing industries. **Q: Can I pursue the SolidWorks course while working full-time?** A: Yes, our SolidWorks Course offers a flexible schedule including evening weekday classes and weekend sessions. This makes it convenient for working professionals to enhance their skills. **Q: What career opportunities can I expect after completion of the SolidWorks Course?** A: After completing SolidWorks training, graduates can pursue roles such as CAD Technician, Design Engineer, or Product Development Engineer, with salaries ranging from $45,000 and $60,000 per year. ## Trainer - Name: MANDER G SINGH - Designation: Senior BIM & Design Trainer Mander Singh is a Senior Design Professional with over 9 years of experience in interior design, architecture, and project management. He specialises in BIM, modelling, drafting, and sustainable design, using tools like AutoCAD, Revit, SketchUp, and Lumion. Mander is known for his practical, hands-on training that equips learners with real-world skills in architecture and interior design. Mander holds a Bachelor's in Architecture and is certified in Advanced Revit Training. He has led high-end commercial and hospitality projects in India and the UAE. He also has experience in delivering innovative design solutions and managing fit-out projects. Mander is passionate about sustainable design, mentoring future talent, and using the latest technology to boost creativity and efficiency. ## Enrol in This Course - Course URL: https://www.edoxi.com/solidworks-course - Phone: +971 43801666 - Email: info@edoxi.com