SolidWorks Design Mastery at Future Finders, Mohali – From Basics to Pro
For mechatronics engineering, which combines computers, robotics, electronics, and control systems, SolidWorks is the most widely used piece of software. The most astonishing items in the modern world, like self-driving vehicles and smartphones, came from this branch of engineering. SolidWorks is a computer-aided design and engineering application that supports digital product development and solid modelling. Learn more about SolidWorks certifications, courses, tests, and more by reading here.
From conception to completion, mechatronic systems are developed using SolidWorks. Electronics, electrical, and mechanical engineers utilise the software package for a linked design.
It keeps all engineers in touch and helps them to react to changes or requirements in the design. Every level of development benefits from SolidWorks. At the beginning of a project, SolidWorks aids with planning, ideation, modelling, feasibility assessment, prototyping, and project management. The design and construction of mechanical, software and electrical components are then aided by it. The last uses for it include management, data automation, analytics, and cloud services.
The owner of SolidWorks is Dassault Systèmes. It produces three related files while adhering to the parametric design. The part, the assembly, and the drawing are contained in these files. If one of these is changed, the changes are immediately mirrored in the other two files.
One of the most important and potent 3D CAD systems is SOLIDWORKS. We can provide cutting-edge solutions to the engineering or technical sectors thanks to the top product design software on the planet. The greatest online training programme is provided by CAD DESK, which walks each student through the process of learning both basic and sophisticated tools and procedures.
SOLIDWORKS is crucial to the majority of engineering and drawing systems since it is a 2D and 3D parametric modeller. During the course, CAD DESK encourages students to work on a variety of projects and complete an internship. The most recent SOLIDWORKS version is taught in-depth by CAD DESK.
Students who use CAD DESK also get free access to their student dashboards and lifelong access to lesson videos that have been recorded. Even after the course is over, CAD DESK students are welcome to visit any CAD institute in India for an offline practice session. The CAD DESK certificate offers students a fantastic method to gain industry recognition and aids in their quest for the greatest employment possibilities.
SOLIDWORKS is utilised by many different professions and businesses all over the world because of its wide variety of features and excellent functionality.
Features of SOLIDWORKS
- Simple yet elegant 3D CAD design
- For more effectiveness, utilise the CAD library and templates.
- To expedite the procedure, leverage automation and design reuse.
- Tools for cost estimate let you monitor in real-time
- Utilize an interference check to ensure that any threats are discovered quickly.
- Quickly create 2D production drawings
- Simple animation and photorealistic renderer creation
What Industries and Professions Benefit from SOLIDWORKS?
- Aerospace & Defense
- Consumer Packaged Goods
- Life Sciences
- Transport & Mobility
- Energy, Process, & Utilities
- Mechanical engineers
- Product engineers
- Designers
- Drafters
- Planners
- Artists & Graphical Illustrators
- Architects
- Electrical engineers
- Process & Piping engineers (P&ID)
How Does SOLIDWORKS Work?
SOLIDWORKS is an effective and user-friendly parametric CAD application, as was already described. Because of this, both novice and seasoned designers like it.
There are, however, a number of fantastic, one-of-a-kind features that may help new users with this procedure and optimise for the greatest user experience. Additionally, a lot of useful tutorials that provide excellent insight and an introduction to the design process are readily available.
Rendering
CAD files may be loaded directly in SOLIDWORKS and rendered utilising precise textures, reflections, and lighting with the help of SOLIDWORKS Visualize, which enables designers to produce presentation-ready, photorealistic renderings. Most designers use this excellent tool, but product designers benefit from it since it enables them to present their final concept before moving forward with manufacturing.
Simulation in SOLIDWORKS
Designers can test their ideas with Solidworks simulation to exactly pinpoint any faults. By spotting problems with their designs early on, mechanical engineers may avoid spending a lot of time, money, and effort on unnecessary revisions.
Complex Evaluation
A designer may easily generate 2D representations of any part of a design with the Drawings tool, with the opportunity to add dimensions with a single button press. Design professionals, engineers, and architects can make a full assessment thanks to this.
Produce with Ease
SOLIDWORKS CAM creates the design files that may be delivered directly to production once the design is finished and the designer has removed any possible hazards detected in the simulation and assessment. A searchable database of 3D printers that generate 2D slice data from solid geometry is also included in the programme, and the 3DEXPERIENCE Marketplace lets you outsource prototype and component manufacture from inside the user interface (UI) at any time of day (User Interface).
Which SOLIDWORKS Version Do You Need?
There are three variants:
SOLIDWORKS STANDARD
Most people who are new to SOLIDWORKS will start off with this version. It concentrates on key aspects like parts, assemblies, and drawings and leaves out some of the features of the other two versions.
Standard still offers a tonne of helpful features, though, which enhance the designer’s experience. Add-ons like FeatureWorks, SimulationXpress, Interference Detection, and 3D Interconnect are included in the standard. Weldments and a treehouse. Each of these characteristics aids designers in refining their creations and expediting the process:
CAD Professional SOLIDWORKS
SOLIDWORKS Professional has additional enhancements that enable experienced designers to work more productively and efficiently.
Additionally, Visualize and Photoview 360 are also extremely useful tools for product designers.
Premium SOLIDWORKS
All of the functionality from Standard and Professional are included in Premium, along with extra add-ons like Simulation Routing and Kinematic and Dynamic Motion Simulation.
Because simulation tools may expedite the design and prototype process, we advise Premium for mechanical engineers.
What Are SOLIDWORKS’s Main Benefits?
Despite certain possible drawbacks, SOLIDWORKS’ benefits vastly surpass any problems a user may experience:
Some of the key benefits of utilising SOLIDWORKS are listed below:
Simple to Learn
Learning a whole new interface is the main barrier for brand-new SOLIDWORKS users. However, there are SOLIDWORKS tutorials available to help you navigate the UI, so people with CAD and CAE knowledge shouldn’t have any trouble grasping it.
SOLIDWORKS assists new users by not overloading them with information at once and by providing a wealth of training resources that let learners proceed at their speed.
For both seasoned and beginning designers, Future Finders provides a variety of SOLIDWORKS support training courses.
Gain expertise in 3D mechanical modeling and simulation using SolidWorks.
Overview of SolidWorks Software
SolidWorks Interface and Navigation
Toolbars and Command Manager
File Management: Creating, Opening, and Saving Files
Units and Document Settings
Keyboard Shortcuts and Mouse Controls
Introduction to Sketching
Sketch Planes and Orientation
Drawing 2D Shapes (Lines, Rectangles, Circles, Arcs, Polygons)
Geometric Relations (Horizontal, Vertical, Parallel, Perpendicular, etc.)
Dimensioning and Fully Defining Sketches
Trim, Extend, Offset, Fillet, and Chamfer in Sketching
Constraints and Relations
Introduction to Part Modeling
Creating 3D Features from Sketches (Extrude, Revolve, Sweep, Loft)
Boss/Base Features and Cut Features
Adding Fillets, Chamfers, and Holes
Pattern Features (Linear, Circular, and Mirror Patterns)
Shell, Draft, and Rib Features
Editing and Modifying Features
Model Evaluation Tools (Mass Properties, Section Views)
Introduction to Assemblies
Inserting Components into Assemblies
Mating Components (Standard Mates: Coincident, Parallel, Concentric, Distance, Angle)
Advanced Mates (Symmetry, Width, Path)
Assembly Features (Cuts, Holes)
Working with Sub-Assemblies
Exploded Views
Collision Detection and Interference Checks
Motion Study Basics
Advanced Sketching Techniques (3D Sketches, Splines)
Advanced Features (Sweeps, Lofts, Boundary Boss/Base)
Multi-Body Parts and Boolean Operations
Surface Modeling Basics (Planar, Extruded, Revolved, Swept, and Lofted Surfaces)
Complex Geometries and Blends
Working with Sheet Metal (Base Flange, Edge Flange, Bends, Unfold, Fold, Flatten)
Weldments (Creating Structural Members, Weld Beads, Gussets)
Creating 2D Drawings from 3D Models
Standard Views (Front, Top, Right, Isometric)
Adding Dimensions and Tolerances
Annotations (Notes, Balloons, Hole Callouts)
Section Views, Detail Views, and Broken Views
Exploded Assembly Views in Drawings
Bill of Materials (BOM) and Revision Tables
Drawing Templates and Sheet Formats
Printing and Exporting Drawings (PDF, DXF/DWG)
Introduction to Surface Modeling
Creating Complex Curves and Surfaces
Surface Features (Extrude, Revolve, Sweep, Loft, Boundary Surface)
Repairing and Editing Surfaces (Trim, Extend, Knit)
Converting Surfaces to Solids
Surface Fillets and Blends
Introduction to Sheet Metal Design
Sheet Metal Features (Base Flange, Edge Flange, Hem, Jog, Sketched Bend)
Creating Sheet Metal Parts from Solid Models
Flattening Sheet Metal Designs
Bend Allowance and K-Factor
Sheet Metal Patterns
Creating and Exporting Flat Patterns for Manufacturing
Introduction to Weldments
Using Weldment Profiles
Creating Structural Frames and Beams
Weldment Features (Gussets, End Caps, Weld Beads)
Working with Weldment Cut Lists
Structural Analysis in Weldments
Large Assembly Management
Top-Down and Bottom-Up Assembly Design
Assembly Configurations
Smart Components and Smart Mates
Using Design Tables in Assemblies
Motion Analysis and Simulation in Assemblies
Advanced Collision Detection and Dynamic Simulation
Introduction to Configurations in Parts and Assemblies
Using Design Tables to Create Configurations
Creating Multiple Versions of a Part or Assembly
Suppressing and Unsuppressing Features in Configurations
Configuration Management
Introduction to Simulation in SolidWorks
Static Analysis for Stress, Strain, and Deformation
Applying Loads and Fixtures
Meshing and Solver Settings
Running and Interpreting Simulation Results
Optimization and Design Iterations
Thermal, Buckling, and Fatigue Analysis (Optional)
Introduction to Motion Studies
Animating Assemblies
Motion Analysis: Rigid Body Motion, Force, Torque
Keyframe Animations
Exporting Animations for Presentations
Basic Rendering Techniques
Introduction to Rendering
Applying Appearances, Materials, and Textures
Setting Up Lighting and Cameras
Creating High-Quality Renders with PhotoView 360
Rendering Animations and Walkthroughs
Creating Presentations and Marketing Visuals
Preparing SolidWorks Models for 3D Printing
Exporting to STL Format
Designing for Manufacturability
Using CAM Tools for CNC Machining
Introduction to SolidWorks CAM (Optional)
Basic CNC Programming and G-Code Generation
Best Practices for Sketching, Modeling, and Assemblies
Model and File Management
Industry-Specific Applications: Automotive, Aerospace, Consumer Products
Collaborating with Teams and Sharing Files
Integrating SolidWorks with PDM (Product Data Management) Systems
Creating a Complete Product Design or Mechanical Part
From Concept Sketching to Detailed 3D Modeling and Assembly
Full Engineering Drawings with Dimensions, Tolerances, and Annotations
Simulation of Final Design (Optional)
Presentation and Documentation of Final Project
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Solid Works Course Fee and Duration | |||
---|---|---|---|
Track | Regular Track | Weekend Track | Fast Track |
Course Duration | 45 - 60 days | 12 Weekends | 30-35 days |
Hours | 2 hours a day | 3 hours a day | 6+ hours a day |
Training Mode | Live Classroom | Live Classroom | Live Classroom |