25 Best SOLIDWORKS Courses & Training Programs Online In 2023
Discover the top 25 SOLIDWORKS courses and training programs online, carefully curated from over 165 popular courses with millions of enrolled students, to elevate your design and engineering skills in the competitive job market.
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Looking for the best SOLIDWORKS courses to elevate your design and engineering skills? Look no further! After examining an impressive 165 popular SOLIDWORKS courses from various providers, with over 4,573,867 enrolled students who left 38,707 ratings and reviews, we've narrowed down the top 25 online courses and training programs to help you master this powerful software.
Our comprehensive selection process evaluated courses based on rating, reviews, enrollments, learner feedback, valuable and engaging content, curriculum comprehensiveness, release date, and affordability. The outcome is a curated list of the finest courses, all expertly combined with our own experience and expertise to provide a one-stop resource for all your SOLIDWORKS learning needs.
Dive into the fascinating world of consumer electronics design with a comprehensive course that focuses on industrial and electrical design using SOLIDWORKS. Guided by experienced instructor Johno Ellison, students will explore a project-based curriculum that teaches essential design principles and techniques through the creation of a game controller. With a strong emphasis on utilizing SOLIDWORKS features such as lofts, fillets, mirroring, and shell, this course enables learners to develop a solid understanding of the software's capabilities in relation to consumer electronics design.
Throughout the course, students will engage in hands-on projects that cover various stages of the design process, from creating an assembly and adding fastening details to designing the buttons, joystick, and printed circuit board that bring the controller to life. By the end of the course, learners will have developed the skills and know-how to successfully design consumer electronics products using SOLIDWORKS and will be prepared to tackle further developments and challenges in the design process. This well-rounded course serves as a valuable resource for individuals looking to expand their knowledge and expertise in the ever-evolving domain of consumer electronics design.
Best for:
This course is best for individuals wanting to improve their SOLIDWORKS skills specifically in designing consumer electronics, focusing on industrial and electrical design through the creative process of designing a game controller.
The SOLIDWORKS software offers impressive capabilities for designing robust mechatronic systems, which are a combination of mechanical and electrical components. In this course, taught by Justin Flett, students will learn the fundamental principles of mechatronic design using SOLIDWORKS while working through a detailed project involving a robotic arm. The course delves into advanced tools for creating plastic components and casings such as drafts, shells, ribs, and mounting bosses, which are essential elements in the design of mechatronic enclosures and housings.
Throughout the course, learners will gain valuable experience in completing comprehensive assemblies. This includes integrating imported components such as motors and printed circuit boards (PCBs) into their designs. Furthermore, students will develop the necessary skills to route cables and wires effectively within their projects. The course concludes with step-by-step guidance on generating final outputs such as drawings, STEP files, and PDF files essential for implementation and documentation purposes. This SOLIDWORKS course lays the foundation for an exciting career in the dynamic field of mechatronic design and engineering.
Best for:
This course is best for individuals seeking to enhance their mechatronics design skills using SOLIDWORKS, particularly in designing robust mechatronic enclosures and casings while integrating electrical and mechanical components for comprehensive assemblies.
Throughout this engaging SOLIDWORKS project-based course, learners can acquire a solid grasp of the fundamentals by exploring the process of modeling a parametric bicycle frame. This course is perfect for individuals who harbor a passion for cycling and have an interest in constructing their own frames or simply want to enhance their SOLIDWORKS skills in an enjoyable and practical manner. Participants will be guided by design engineer and cycling enthusiast Johno Ellison as he demonstrates how to create a durable bike frame grounded in real-life frame geometry.
In the course, learners will be guided on how to create the frame, pinpoint off-the-shelf components such as handlebars, amalgamate them into an assembly, and produce drawings for the final product. Johno sheds light on the more pragmatic aspects of bike building as well as how they are connected to SOLIDWORKS and CAD in general. By doing so, this course offers participants an excellent opportunity to apply and hone their modeling abilities in a meaningful and enjoyable way.
Best for:
This course is the best for those who want to enhance their SOLIDWORKS skills by learning how to model a parametric bicycle frame, guided by design engineer and cycling enthusiast Johno Ellison.
If you're looking to design and build mechanical gears for professional or personal projects, this course provides an in-depth understanding of the process using SOLIDWORKS. Instructor Ryan Krawchuk will guide you through the basics of various types of gears, such as spur gears and helical gears, as well as their specific applications. You'll also gain valuable knowledge about key gear design attributes and nomenclature, ensuring that you have a strong foundation in this area.
This course teaches you how to use spur gear equations for both metric and English measurement systems and walks you through each step of modeling a spur gear using SOLIDWORKS. Once your gear model is complete, you'll learn how to design mounting plates and insert them into an assembly. Additionally, you'll discover how to use concentric and coincident gear mates to allow gears to rotate dynamically, creating a truly functional design. To bring it all together, Ryan will show you how to animate your assembly with a SOLIDWORKS motion study, giving you a comprehensive understanding of gear modeling processes and applications.
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This course is perfect for individuals seeking to strengthen their SOLIDWORKS skills by learning to design and model various types of mechanical gears, as well as understanding their applications, key attributes, and nomenclature. Gain valuable insight into gear design equations and create functional assemblies with dynamic gear mates and motion studies.
Gain valuable experience in using SOLIDWORKS, the widely-used 3D CAD program, by virtually constructing a Stirling Engine. Throughout the course, you will be guided step by step in crafting individual components and combining them into a fully-functioning assembly. Enhance your abilities in designing machines with moving parts and broaden your expertise in using SOLIDWORKS 3D CAD software.
Under the expert guidance of Johno Ellison, you will delve into the intricacies of constructing an early-19th-century alternative to the steam engine – the Stirling Engine, a closed-cycle heat engine invented by Robert Stirling in 1816. Johno will demonstrate how to utilize SOLIDWORKS to design each component, assemble the parts, and generate drawings of the final product. Additionally, Johno will share valuable tips and insights on bridging the gap between virtual and physical designs, enabling you to bring your creations to life.
Best for:
This course is best suited for those seeking to enhance their abilities in designing machines with moving parts, specifically focusing on crafting a Stirling Engine using SOLIDWORKS 3D CAD software.
This comprehensive course focuses on teaching the essentials of mold design using SOLIDWORKS, a powerful design and engineering program commonly used in the industry. With a focus on design techniques applicable for both one-off prototypes and mass-produced products, the course curriculum is structured to provide students with the skills necessary to generate high-quality molds and casts using various materials such as clay, metal, and plastic. Emphasis is placed on modern methodologies, incorporating 3D printing and CNC machine practices to achieve repeatable and precision-crafted results.
To help guide students towards successful implementation, the course is led by design consultant and experienced instructor Tam Black, who offers a wealth of knowledge on the materials and techniques used in both small-scale home projects and larger industrial contexts. A vital component of the course is understanding the production process and selecting the most suitable method based on the desired scale of the project. By the end of the course, students will have obtained the knowledge and tools needed to design high-quality molds and casts using SOLIDWORKS, opening a world of possibilities in art, jewelry, tools, and more.
Best for:
This course is ideal for individuals seeking to improve their mold design capabilities in SOLIDWORKS, focusing on modern techniques involving 3D printing and CNC machining. Participants will acquire the essential skills to create molds and casts suitable for various materials and production scales.
Unlock the full potential of your CAD designs by learning how to create animations using SOLIDWORKS. This course will guide you through the process of generating lifelike animations, allowing you to effectively demonstrate and communicate the functions and movements of your product. By mastering these techniques, you will be able to showcase the intricacies of your product design, giving both your teammates and clients a thorough understanding of its capabilities.
Expert instructor Justin Flett will guide you through the use of the Animation Wizard to generate simple animations, as well as demonstrate the creation of more complex animations using manual techniques and motion drivers. The course will also cover basic physics-based motion and walkthrough animations, enabling you to skillfully animate your designs using SOLIDWORKS. Enhance your 3D CAD software skills and add a new dimension to your product presentations by learning the art of animation with this comprehensive course.
Best for:
This course is ideal for those looking to unlock the full potential of their CAD designs by generating lifelike animations, effectively demonstrating and communicating product functions and movements.
In this comprehensive course, students will delve into the world of finite element analysis (FEA) using SOLIDWORKS Simulation. This powerful tool offers designers an opportunity to gain valuable insight into the performance and efficiency of their SOLIDWORKS models under different conditions. As students progress through the course, they will explore essential concepts and skills needed in conducting a successful FEA, starting from setting up a model and running the analysis, to interpreting the results to make informed design decisions.
Throughout the learning process, expert instruction will shed light on both the theoretical and practical aspects of utilizing SOLIDWORKS Simulation. Additionally, the course will cover important topics such as model verification and calibration, meshing strategies, and result validation. By the end of the course, students will have a solid foundation in FEA methodology and applications, empowering them to leverage SOLIDWORKS Simulation for the optimization of their designs and ultimately enhancing the quality of their products.
Best for:
This course is ideal for those who want to gain valuable insights into the performance and efficiency of their SOLIDWORKS models under different conditions using finite element analysis (FEA). It covers essential concepts, skills, and applications of FEA while enhancing the quality of their products.
Unlock the potential of Mastercam, one of the most widely-used CAM packages, in conjunction with the powerful features of SOLIDWORKS. This course enables students to develop the skills to create efficient tool paths while leveraging the benefits of the intuitive SOLIDWORKS interface for drawing, modeling, and building assemblies. Under the expert guidance of instructor Gabriel Corbett, learners will gain valuable insights into loading models and assemblies, setting up machines and fixtures, and configuring the tools needed for a successful manufacturing process.
The course delves deeper into the practical applications of Mastercam and SOLIDWORKS, highlighting essential techniques such as drilling, tapping, boring, pocketing, and milling. Students will gain a solid understanding of the processes involved in transforming raw material into precise and intricate parts through CNC machining. Furthermore, the course provides a comprehensive introduction to job simulation, ensuring the learners are equipped with the knowledge and skills necessary to optimize their manufacturing workflows and produce high-quality parts in a real-world context.
Best for:
This course is excellent for students who want to learn Mastercam integration with SOLIDWORKS to improve their manufacturing workflows and create efficient tool paths while leveraging SOLIDWORKS features for drawing, modeling, and building assemblies.
In this comprehensive course, you will learn how to efficiently design parts and assemblies using the sheet metal tools in SOLIDWORKS. The course takes you on a fascinating journey to the factory floor, where you can witness the final manufactured results, and gain valuable insights into the backstage processes. Expert instructor Gabriel Corbett offers useful tips and guidance on designing parts for real-world applications, ensuring that you acquire practical knowledge while enhancing your SOLIDWORKS skills.
The course begins by delving into the fundamental aspects of SOLIDWORKS sheet metal tools and the unique properties of sheet metal, such as bend radius, K-factor, bend deduction, and gauge thickness. As the course progresses, you will learn how to create basic parts with essential features like flanges and bends which provide strength and connections. Moreover, the course teaches you how to flatten parts, add holes, cuts, and corners for manufacturing readiness, and convert imported geometry into native sheet metal parts using the Convert to Sheet Metal command. Gabriel also demonstrates the creation of assemblies from multiple parts and the use of Pattern and Mirrors tools for easy duplication of existing work. Finally, the course provides guidance on documenting your designs with detailed sheet metal drawings and explores the diverse machinery and processes involved in manufacturing through bonus videos.
Best for:
This course is perfect for learners looking to improve their SOLIDWORKS skills in designing parts and assemblies specifically for sheet metal applications, while gaining practical knowledge for real-world manufacturing processes.
If you are a student, engineer, or designer eager to learn SOLIDWORKS - a highly efficient 3D CAD software tool, then this course is perfect for you. SOLIDWORKS is widely used in multiple industries, including aerospace, defense, automotive, transportation, machinery, heavy equipment, consumer products, mold & tool design, electronics, sheet metal work, process plant, energy conservation, construction, and medical tools, among others. By taking this course, you will gain a comprehensive understanding of both basic and advanced tools of the software, and develop hands-on experience in sketch, part, assembly, and surface environments of SOLIDWORKS.
The course is designed for both basic and intermediate users, so regardless of your prior experience with SOLIDWORKS, you will still find the training valuable. Through the course's well-structured modules, you will learn how to draw sketches for solid models, edit and modify sketches, add relations and dimensions to sketches, use advanced dimensioning techniques and base feature options, create reference geometries, and much more. By completing various practice examples and working on real-world projects, you will acquire not only solid theoretical knowledge but also practical skills that will serve you well in your professional endeavors in various engineering fields.
User review:
O curso apresenta de forma clara e objetiva o conteúdo. Só achei muito repetitivo o fechamento de cada lição falando dos agradecimentos gerais, dura em torno de 30 segundos. Somando 30 segundos para lição a gente fica muito tempo vendo a mesma informação. Nessa caso, tenho que sair da aula selecionar e pular para a próxima. [1]... Read More
João Carlos Boline Passarelli Capaz Pinto da Silva
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This course is ideal for students, engineers, and designers looking to develop comprehensive SOLIDWORKS skills, covering both basic and advanced tools in sketch, part, assembly, and surface environments.
In the SOLIDWORKS: Drawings course, students will gain a comprehensive understanding of how to create detailed and informative drawings using all the data and views that are accessible within a SOLIDWORKS model. The course emphasizes the importance of drawings as an essential tool for communicating design intent with various stakeholders, such as fabricators, clients, and fellow designers. Participants will master drawing techniques that go beyond generating basic part views by learning how to derive complex views like auxiliary and crop views while using a plethora of dimensioning tools at their disposal.
Apart from creating drawings, experienced instructor David Antanavige ensures that students gain knowledge on how to create and manage crucial elements like title blocks and revision blocks. This ensures that learners are well-equipped to handle a wide range of tasks associated with SOLIDWORKS drawings. By the end of this course, students will have a firm grasp on the essential skills needed to create polished and professional SOLIDWORKS drawings that effectively convey their design ideas and intentions to various stakeholders involved in the design process.
Best for:
This course is perfect for those who want to master creating polished and detailed SOLIDWORKS drawings, enabling effective communication of design ideas and intentions with stakeholders like fabricators, clients, and fellow designers.
Mastering the SOLIDWORKS Tools suite is essential for all levels of designers as it provides the ability to customize and control the CAD software to match their preferences and workflow. The course is designed to cover both basic and advanced tools essential for design administration, improved productivity, and more efficient design practices. Equipped with high-quality instructional content, the course ensures learners can seamlessly navigate through auxiliary features such as the Copy Settings Wizard, Property Tab Builder, SolidNetWork License Manager, SOLIDWORKS Rx, Routing Library Manager, SOLIDWORKS Treehouse, and more.
With a strong emphasis on practical applications, the course enables learners to gain a solid understanding of how these powerful SOLIDWORKS tools can enhance the design process and help avoid time-consuming errors. This expertise ultimately allows designers to produce higher-quality designs in a shorter amount of time. The course covers everything from managing toolboxes and preparing parts for routing to diagnosing and fixing drawing problems. Equip yourself with the must-know tools in SOLIDWORKS and unleash your true design potential with this hands-on, informative course.
Best for:
This course is optimal for designers who want to increase their proficiency in design administration, improve their productivity, and employ efficient design practices using a variety of advanced SOLIDWORKS tools.
Master the art of sketching, the backbone of every 3D model in SOLIDWORKS, with this comprehensive course that delves deep into essential tools and functions for sketching in this powerful 3D CAD software. Enhance your understanding and improve your designs as the instructor, David Antanavige, starts by reviewing basic sketch entities such as circles and splines, and gradually moves on to more advanced topics. This will not only enhance your knowledge but also contribute to your overall productivity while working on your projects.
Throughout this course, you will explore various sketching aspects including sketch tools, sketch settings, spline tools, dimensions, and 3D sketching. Each topic is meticulously crafted to ensure that you gain a solid understanding and can confidently apply the acquired knowledge in your designs. Whether you are a beginner or an experienced user looking to sharpen your sketching skills, this course is designed to cater to your needs and help you excel in creating precise and intricate 3D models using SOLIDWORKS.
Best for:
This course is best for mastering essential tools and functions in sketching 3D models using SOLIDWORKS, covering a range of topics from basic sketch entities to more advanced techniques.
SOLIDWORKS Weldments is a comprehensive course that guides you through the process of constructing weldments and fabricated models using the powerful Weldments toolset in SOLIDWORKS. Throughout the course, master instructor Gabriel Corbett shares his extensive knowledge of the software, highlighting essential techniques for designing complex welded or bolted structures. Starting out with simple 2D and 3D sketches, Gabriel demonstrates how to incorporate various material types from the preloaded structural member library and construct a welded structure, while also addressing important corner options like miter and butt joints, material-positioning options such as flipping and mirroring, as well as techniques for aligning and connecting the structural members.
The course goes beyond the basics by exploring how to build assemblies from weldments and incorporate elements such as gussets, weld beads, and end caps. As an added bonus, learn how to efficiently generate crucial documentation including weldment cut lists and weld tables that can be integrated into your drawings. Finally, Gabriel imparts valuable tips and tricks for fabricating your completed design, emphasizing the use of standard-sized materials for a streamlined and cost-effective production process. This in-depth course provides the essential knowledge and skills required to excel in designing and creating professional-quality weldments and fabricated models using SOLIDWORKS.
Best for:
This course excels in teaching you the essential techniques to create complex welded and bolted structures using SOLIDWORKS Weldments toolset, providing valuable tips and insights for designing professional-quality weldments and fabricated models.
Master the techniques of dynamic analysis, including transient analysis and frequency response analysis, by employing SOLIDWORKS Simulation. The curriculum first delves into the fundamentals of dynamics theory along with normal modes analysis, followed by an in-depth examination of various dynamic analysis elements such as damping, mass participation, modal methods, and direct methods. As you progress through the course, you will acquire valuable skills in conducting transient analysis and understanding its different aspects like modal transient response, direct transient response, and base motion in dynamic response.
Additionally, the course provides comprehensive knowledge on frequency response analysis, which is crucial in understanding the behavior of structures subjected to dynamic loading. By the end of your learning journey, you will be adept at interpreting the results of dynamic analysis simulations, empowering you to make informed decisions when designing and optimizing structural systems. This thorough instructional course will not only refine your SOLIDWORKS skills but also enhance your understanding of the complex discipline of dynamic analysis, making you a valuable asset in the engineering and product design sector.
Best for:
This course is excellent for those who want to master dynamic analysis techniques, including transient analysis and frequency response analysis, in order to optimize their structural systems and make informed decisions when designing.
This comprehensive course on SOLIDWORKS CAM aims to equip learners with knowledge and skills to efficiently create ready-to-manufacture instructions for CNC machines. The SOLIDWORKS CAM add-in is an indispensable tool for designers, enabling them to transform their 3D part models into the essential NC G-code required for machining the respective features of a given design. The course is delivered by Kipp Bradford, an experienced instructor who will guide learners through the process of identifying machinable features in a design, preparing the necessary toolpaths and operations, and generating output files and setup sheets vital for manufacturing parts.
It is important to note that this course assumes a certain level of familiarity with part and assembly modeling in SOLIDWORKS, as well as fundamental knowledge of CNC setup and operation. By the end of the course, learners would have honed their expertise in using the SOLIDWORKS CAM add-in, allowing them to effectively and efficiently convert their designs into viable, ready-to-manufacture instructions, streamlining the overall production process and broadening their capabilities as designers and engineers.
Best for:
This course is ideal for individuals seeking to enhance their skills in utilizing the SOLIDWORKS CAM add-in to transform designs into executable instructions for CNC machines, while optimizing the design-to-production workflow.
Designed specifically for individuals seeking mastery in SOLIDWORKS, this weekly series aims to provide participants with valuable insights into working faster and more efficiently with the software. Drawing from the vast pool of knowledge within the SOLIDWORKS community, your instructor, Gabriel Corbett, has spent years researching the program, attending conferences, and teaching classes. By sharing his expertise, you will be exposed to a range of tips and tricks, covering crucial aspects of the software – from file renaming and property customization to sketching, constructing complex geometry, part replacements, and drawing links. Each weekly episode is carefully crafted to deliver the most effective learning experience, ranging from just 2 to 10 minutes in length.
Please note that as this is an ongoing series, viewers will not receive a certificate of completion. Furthermore, the series will be taking a short break and will resume in a few months. By investing in this course, you will significantly enhance your SOLIDWORKS proficiency, giving you the tools and knowledge necessary for tackling even the most challenging tasks and projects with ease and efficiency. Discover the all-encompassing power of SOLIDWORKS and elevate your 3D design skills to new heights.
Best for:
This course is best for individuals seeking to significantly enhance their SOLIDWORKS proficiency, covering crucial aspects such as sketching, constructing complex geometry, part replacements, and drawing links, ultimately enabling them to tackle challenging tasks and projects with ease and efficiency.
Develop the skills necessary to become a Certified SOLIDWORKS Professional (CSWP) with this comprehensive course, which focuses on mastering design and analysis techniques for parametric parts and moveable assemblies using SOLIDWORKS' extensive array of features. Led by experienced instructor and SOLIDWORKS expert Gabriel Corbett, the course offers a thorough overview of the CSWP requirements, covering more than 30 essential skills that will be assessed during the exam, such as equations and linked variables, convert and offset entities, the Shell tool, the Hole Wizard, materials, configurations, design tables, and assembly techniques.
The course is strategically designed to help you excel in each of the three segments of the CSWP exam, namely part modeling, configurations, and assemblies, by providing valuable strategies and insights to tackle every section within the required time limit. With a focus on hands-on learning and practice, this course serves as an essential stepping stone towards achieving CSWP certification and demonstrating your proficiency in the SOLIDWORKS software, opening various avenues for professional growth in the engineering and design industries.
Best for:
This course is ideal for those looking to develop the necessary skills and master design and analysis techniques for parametric parts and moveable assemblies using SOLIDWORKS in order to achieve Certified SOLIDWORKS Professional (CSWP) certification.
Mastering SOLIDWORKS file references is crucial to maintaining optimal productivity and ensuring accuracy within your design projects. This course dives into the intricacies of file references, helping learners to understand their role in the context of the design process. Topics explored include locating file references, deciphering various indicators and error messages, as well as identifying effective solutions to common problems. In addition, participants will gain knowledge on how to edit components, such as parts, assemblies, and drawings, using file reference options, ultimately providing a robust understanding of the subject matter.
Moreover, the course delves into advanced features such as Pack and Go, move, and replace options, which serve to streamline your design process while minimizing potential downfalls associated with legacy designs. By the end of this course, users will be equipped with the knowledge and skills necessary to navigate the complexities of SOLIDWORKS file references with confidence, enabling more efficient and accurate design workflows. This valuable course presents an indispensable learning opportunity for anyone seeking to enhance their proficiency in SOLIDWORKS and optimize their design outcomes.
Best for:
This course is excellent for learning how to effectively manage and navigate SOLIDWORKS file references, allowing for more efficient and accurate design processes across a variety of projects.
This comprehensive course is designed for individuals who are completely new to SOLIDWORKS or looking to enhance their skills from a beginner to an intermediate level. The content of this course covers essential topics such as the basic properties of 2D sketching, dimensions, unit systems, sketch relations, and various commands like Sketch Fillet, Trim entity, Offset entity, and Mirror entity. Participants will also be guided through the process of converting 2D sketches to 3D models, learning to create realistic and practical 3D models with step-by-step instructions.
In addition to solid modeling, the course also delves into the basics of sheet metal design and provides a thorough understanding of techniques, allowing students to demonstrate proficiency at an Associate Certification level. Once completed, students will have developed a solid foundation in SOLIDWORKS knowledge and be well-equipped to apply these properties in real-world applications. Furthermore, this course highlights the flexibility of SOLIDWORKS as a software, making it possible to work with both offline and online versions available on the SOLIDWORKS website, catering to different student needs and preferences.
User review:
Thank you very much, I have benefited a lot from this course, which contains the basics in SolidWorks program, now I can learn more and expand my knowledge in this program.[2]... Read More
Majd Mustafa
Best for:
This course is ideal for individuals who aim to enhance their skills in solid modeling and sheet metal design, providing a comprehensive understanding of techniques, practical applications, and preparing them for an Associate Certification level.
In the rapidly evolving world of 3D scanning, engineers are increasingly utilizing scan data for designing sophisticated components. Mastering the art of converting scan data into usable surface and solid bodies is crucial for professionals working in this domain, and SOLIDWORKS - a prominent design software - offers a variety of tools to handle point clouds and meshes. The course, led by instructor David Antanavige, delves into the editing and manipulation of mesh file types in SOLIDWORKS, enabling learners to reverse engineer or replace legacy parts, facilitate 3D printing and scanning, and generate editable geometry.
The course provides comprehensive training on how to open and import scan files, edit and repair meshes, replace faces, and utilize Boolean geometry tools to combine and delete bodies. Additionally, it demonstrates the use of the ScanTo3D feature to effectively manipulate mesh data during the import process and offers insights into the latest SOLIDWORKS 2019 tools designed specifically for working with mesh BREP bodies. Furthermore, David highlights the export process of a mesh, in order to effectively prepare it for 3D printing, ensuring that learners are equipped with practical and robust skills to excel in the field of 3D scanning and design.
Best for:
This course is ideal for learning how to effectively edit, manipulate, and utilize mesh file types in SOLIDWORKS, enabling professionals to handle 3D scanning data, reverse engineer or replace legacy parts, and facilitate 3D printing and scanning.
Explore the world of advanced verification and simulation tools available in SOLIDWORKS with this comprehensive course. SOLIDWORKS is a renowned 3D solid modeling software that offers a plethora of tools designed to help you create better designs and identify errors that might otherwise go unnoticed. This course will acquaint you with several advanced manufacturing verification and simulation tools that can streamline your review process for assemblies and parts, ensuring an efficient and thorough examination of your designs.
With the guidance of experienced instructor Gabriel Corbett, you'll delve into various time-saving tools such as Interference Detection, Clearance Verification, Hole Alignment, Costing, Part Reviewer, and part and assembly Performance Evaluation. As you progress through each tool, Gabriel will provide step-by-step instructions coupled with real-world examples to give context and enhance your understanding of each feature. Mastering these advanced SOLIDWORKS tools will not only save you money and time on your projects but also empower you to deliver high-quality designs with confidence.
Best for:
This course is ideal for learning and mastering advanced verification and simulation tools in SOLIDWORKS, ensuring efficient and thorough examination of designs for various manufacturing applications.
This expert-driven course focuses on introducing Autodesk HSMXpress, a 2.5 axis CAM plugin specifically designed to integrate seamlessly with SOLIDWORKS. Guided by an experienced professional, students will learn the process of setting up a machine and fixtures, configuring essential tools, and generating toolpaths. Additionally, the course provides an in-depth understanding of how to work with SOLIDWORKS and HSMXpress to carry out crucial tasks such as drilling, tapping, boring, pocketing, and milling various materials.
Throughout the course, instructor Gabriel Corbett will showcase valuable techniques to help students gain hands-on experience in operating Autodesk HSMXpress with SOLIDWORKS. Topics include loading models, creating job simulations, and utilizing the numerous utilities offered by HSM. With a comprehensive understanding of these essential skills, students will be well-equipped to harness the power of this integrated CAM software and enhance their workflow efficiency across various industrial applications. The knowledge acquired in this course is invaluable for professionals working in the manufacturing, design, and engineering sectors.
Best for:
This course is ideal for professionals looking to enhance their workflow efficiency across various industrial applications by learning essential skills for operating Autodesk HSMXpress with SOLIDWORKS, focusing on specific tasks such as drilling, tapping, boring, pocketing, and milling various materials.
Enhance your SOLIDWORKS expertise by learning the ins and outs of creating engineering drawings that surpass the fundamentals of part designs. Under the guidance of David Antanavige, you will dive deep into the techniques required to produce intricate drawings, including broken-out section views, alternate position views, and bills of materials. His teachings will enable you to not only better understand product documentation but also manufacturing specifications.
Besides mastery of complex design views, you will also gain a solid understanding of geometric dimensioning and tolerancing (GD&T) symbols, essential for communicating accurate manufacturing specifications. By the end of the course, you will have the skills to create comprehensive 2D layouts, elevating your SOLIDWORKS abilities and giving you a competitive edge in the market. Expand your capabilities today and become a proficient SOLIDWORKS user in the field of advanced engineering drawings.
Best for:
This course is ideal for those looking to enhance their SOLIDWORKS expertise by learning to create intricate engineering drawings, including broken-out section views, alternate position views, and bills of materials. Additionally, students will gain a solid understanding of geometric dimensioning and tolerancing (GD&T) symbols.
Choosing the best SOLIDWORKS course can be a daunting task, given the wide variety of courses available. However, by following a systematic approach and focusing on specific intentions for learning, it is possible to make an informed decision. In the context of this article, we will discuss some key factors to consider when selecting a SOLIDWORKS course and provide a list of user intents to help guide you in making the right choice.
Define your learning objectives:
Identify the primary reason for learning SOLIDWORKS, such as improving design skills for consumer electronics, understanding mechatronics design, or mastering the process of modeling complex geometries like bicycles and gears.
Determine your skill level:
Analyze your current SOLIDWORKS proficiency and consider choosing a course that aligns with your skills, whether you're a beginner or an experienced user.
Consider the course content:
Review the course syllabus and ensure that it covers the topics that are of interest, such as animations, finite element analysis simulation, mold design, or sheet metal design, among others.
Course duration and format:
Choose the course with the appropriate scope, structure, and pace that suits your learning style and availability.
By evaluating courses based on these factors, you can select the most suitable SOLIDWORKS course to achieve your goals, enhance your design expertise, and potentially expand your career opportunities in the industry.
Conclusion
By choosing one or more of these top-rated SOLIDWORKS courses, you are taking a step toward enhancing your design skills, expanding your professional knowledge, and ultimately increasing your value in the competitive job market. These well-designed courses cover various aspects of SOLIDWORKS, catering to users with different needs and skill levels. Whether your goal is to design consumer electronics or become proficient in sheet metal design, these courses will provide you with the necessary knowledge and expertise to excel in your field.
Investing in yourself by learning SOLIDWORKS is not only personally rewarding, but it also has the potential to significantly benefit your career or personal projects. Remember, knowledge is power, and these courses have been specifically tailored to empower you with valuable and practical SOLIDWORKS skills. So why wait? Start your journey towards mastery today and watch yourself grow more confident and proficient with each completed course. The world of design awaits you!
How much does a SOLIDWORKS course cost?
The cost of SOLIDWORKS courses varies depending on the platform and subscription type. On LinkedIn Learning, you have the option of a 1-month free trial, followed by a subscription fee of $19.99/month annually or $39.99/month monthly. On Udemy, individual courses can range from $14.99 to $67.9.
How long do SOLIDWORKS courses take?
The duration of SOLIDWORKS courses varies depending on the content and complexity. Courses on LinkedIn Learning range from 43 minutes to 6h 48m. On Udemy, one of the courses lasts for 9h 16m. The time to complete a course depends on the individual's learning pace and the course's content.
What topics are covered in SOLIDWORKS online courses?
SOLIDWORKS online courses cover a wide range of topics, including designing for consumer electronics, mechatronics, modeling gears, bicycles, Stirling engines, mold design, animations, finite element analysis simulations, sheet metal design, sketching, weldments, and advanced engineering drawings, among others.
