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SolidWorks is a 3D computer-aided design (CAD) software used by engineers and designers around the world. It is primarily used for designing and analyzing mechanical systems and large assemblies, but can also be used for a variety of other applications such as architectural designs, electrical wiring, and more.
A SolidWorks course provides an overview of this software, teaching essential skills needed to use it effectively. Here are some key features of a SolidWorks course:
1. Introduction: Understanding the basic interface and functionalities of SolidWorks, such as how to navigate the software and customize settings.
2. Sketching: Learning how to create 2D sketches which form the basis for 3D models. This may include lines, curves, circles, rectangles, and other geometric figures.
3. Part Modeling: Creating 3D models by adding dimensions and relations to sketches. This involves understanding various features like extrusions, revolutions, sweeps, lofts, etc.
4. Assembly: Learning to assemble different parts into a cohesive whole. This includes inserting components, positioning them appropriately, and adding appropriate constraints.
5. Drafting: Converting 3D models into 2D drawings. This includes adding dimensions, annotations, tolerances, and other necessary details.
6. Analysis: Performing different kinds of analyses (like stress analysis, thermal analysis, etc.) to evaluate the performance of designs.
7. Simulation: Creating and running simulations to predict how a design will behave in real-world conditions.
These are the core features of most SolidWorks courses. However, each course may have different focuses depending on the audience’s needs (like automotive engineering, biomedical design, etc.) It’s also common for courses to delve into specialized SolidWorks tools, like SolidWorks PDM for data management, SolidWorks CAM for machining simulations, SolidWorks Electrical for electrical systems design, etc.
In essence, a SolidWorks course is useful for anyone involved in product design, architecture, mechanical or electrical engineering, and related fields. This includes students, professionals or even hobbyists who want to create 3D models with ease and precision.
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| Course Fee | 1,675 |
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Total Fees |
1,675 (USD) |
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Inclusions in Koenig's Learning Stack may vary as per policies of OEMs
Koenig Learning Stack
Free Pre-requisite TrainingJoin a free session to assess your readiness for the course. This session will help you understand the course structure and evaluate your current knowledge level to start with confidence.
Assessments (Qubits)Take assessments to measure your progress clearly. Koenig's Qubits assessments identify your strengths and areas for improvement, helping you focus effectively on your learning goals.
Post Training ReportsReceive comprehensive post-training reports summarizing your performance. These reports offer clear feedback and recommendations to help you confidently take the next steps in your learning journey.
Class RecordingsGet access to class recordings anytime. These recordings let you revisit key concepts and ensure you never miss important details, supporting your learning even after class ends.
Free Lab ExtensionsExtend your lab time at no extra cost. With free lab extensions, you get additional practice to sharpen your skills, ensuring thorough understanding and mastery of practical tasks.
Free Revision Classes Join our free revision classes to reinforce your learning. These classes revisit important topics, clarify doubts, and help solidify your understanding for better training outcomes.
Inclusions in Koenig's Learning Stack may vary as per policies of OEMs
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♱ Excluding VAT/GST
You can request classroom training in any city on any date by Requesting More Information
Inclusions in Koenig's Learning Stack may vary as per policies of OEMs
The main objectives of SolidWorks Training include acquiring the ability to design and analyze parametric models, understanding the core principles of 3D design and simulation, and learning assembly modeling and product data management. Furthermore, students are expected to master surface, mesh and structural design, draft 2D or 3D designs using the software, and handle computer-aided design tasks in different engineering disciplines. The course is structured to boost knowledge in engineering concepts like kinematics, dynamics, material science, physics and more. It also aims to develop competencies in creating, interpreting, and managing engineering drawings and documents, utilizing full capacities of the SolidWorks software. The ultimate goal of the training is to equip learners with professional-level skills in SolidWorks to thrive in their respective fields.
