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SOLIDWORKS Revolution and Cut Features
SOLIDWORKS
5.0
Based on 14 ratings
SOLIDWORKS
This course focuses on feature refinement and advanced geometry creation using cuts and revolved features.
Upon completion of this learning module, you will be able to:
- Create extruded cuts
- Apply fillets/chamfers
- Create revolve boss
- Apply revolve cut
This course is ideal for learners who want to explore new tools for creating axisymmetric objects and refining their designs.
Software Prerequisites:
SOLIDWORKS Desktop EDU
Read more
This course focuses on feature refinement and advanced geometry creation using cuts and revolved features.
Upon completion of this learning module, you will be able to:
- Create extruded cuts
- Apply fillets/chamfers
- Create revolve boss
- Apply revolve cut
This course is ideal for learners who want to explore new tools for creating axisymmetric objects and refining their designs.
Software Prerequisites:
SOLIDWORKS Desktop EDU
Read more
This course focuses on feature refinement and advanced geometry creation using cuts and revolved features.
Upon completion of this learning module, you will be able to:
- Create extruded cuts
- Apply fillets/chamfers
- Create revolve boss
- Apply revolve cut
This course is ideal for learners who want to explore new tools for creating axisymmetric objects and refining their designs.
Software Prerequisites:
SOLIDWORKS Desktop EDU
Access powerful capabilities for Engineering with SOLIDWORKS Desktop at a low price, $60 (excluding taxes), follow this link : https://go.3ds.com/CSW1
Register for this course and see more details by visiting:
OpenCourser.com/course/rpm232/solidworks
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Syllabus
Welome to SOLIDWORKS Revolution and Cut Features Course
In this module, you’ll get an overview of the course structure and what to expect as you progress.
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Syllabus
Welome to SOLIDWORKS Revolution and Cut Features Course
In this module, you’ll get an overview of the course structure and what to expect as you progress.
Read more
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Career center
Learners who complete SOLIDWORKS Revolution and Cut Features will develop knowledge and skills
that may be useful to these careers:
CAD Modeler
CAD Modeler
A CAD Modeler specializes in creating and modifying precise 2D drawings and 3D models using computer aided design software. This role is fundamental across engineering and manufacturing, where detailed digital representations are critical for design, analysis, and production. The SOLIDWORKS Revolution and Cut Features course directly enhances the skillset of an aspiring CAD Modeler by focusing on crucial techniques for feature refinement and advanced geometry creation. Mastering extruded cuts, fillets, chamfers, revolve boss, and revolve cut features provides the exact tools needed to construct complex and axisymmetric components efficiently and accurately. This course is specifically tailored to build expertise in the direct application of these powerful SOLIDWORKS features, which are daily tasks for a CAD Modeler.
Mechanical Designer
Mechanical Designer
A Mechanical Designer is central to bringing new products and systems to life, creating detailed 3D models and technical drawings for manufacturing. This role requires precision in defining parts and assemblies, ensuring they meet functional and aesthetic requirements. The SOLIDWORKS Revolution and Cut Features course helps build a strong foundation in essential CAD techniques, like creating extruded cuts, applying fillets and chamfers, and mastering revolve boss and revolve cut features. These skills are fundamental for accurately modeling complex components, especially axisymmetric objects, which are common in many mechanical designs. Taking this course helps learners develop the proficiency needed to refine designs and prepare them for production, making it highly relevant for aspiring Mechanical Designers.
Mechanical Design Engineer
Mechanical Design Engineer
A Mechanical Design Engineer conceives, designs, and analyzes mechanical systems and components across various industries. This role requires a strong grasp of engineering principles combined with advanced CAD proficiency to develop innovative solutions. The SOLIDWORKS Revolution and Cut Features course directly contributes to the core competencies of a Mechanical Design Engineer by enhancing skills in feature refinement and advanced geometry creation. The ability to precisely apply extruded cuts, fillets, chamfers, and master revolve boss and revolve cut features is indispensable for modeling complex mechanical parts and assemblies. This course helps learners develop technical precision and problem solving skills crucial for bringing robust mechanical designs to fruition. This role often requires an advanced degree.
Jig and Fixture Designer
Jig and Fixture Designer
A Jig and Fixture Designer creates specialized tools that hold workpieces or guide cutting tools during manufacturing operations. This role demands exceptional precision in 3D CAD modeling to ensure that these custom aids function perfectly and improve production efficiency. The SOLIDWORKS Revolution and Cut Features course directly supports the skill set of a Jig and Fixture Designer by providing in-depth training on advanced geometry creation and feature refinement. The techniques for creating extruded cuts, applying fillets and chamfers, and mastering revolve boss and revolve cut features are fundamental for designing the complex forms often found in manufacturing jigs and fixtures. This course helps learners achieve the exact dimensional control and geometric complexity required for effective tooling design.
Tooling Designer
Tooling Designer
A Tooling Designer creates specialized jigs, fixtures, molds, and dies essential for manufacturing processes. This highly specialized role demands exceptional precision in 3D CAD to ensure that tooling can produce parts accurately and efficiently. The SOLIDWORKS Revolution and Cut Features course directly supports the skill set of a Tooling Designer by providing in-depth training on advanced geometry creation and feature refinement. The techniques for creating extruded cuts, applying fillets and chamfers, and mastering revolve boss and revolve cut features are fundamental for designing the complex forms often found in tooling, especially for parts with rotational symmetry. This course helps learners achieve the exact dimensional control and geometric complexity required for effective tooling design.
Product Design Engineer
Product Design Engineer
A Product Design Engineer integrates functionality, aesthetics, and manufacturability to develop innovative products. This role involves concept generation, detailed design, and iterative refinement using advanced CAD tools. The SOLIDWORKS Revolution and Cut Features course is directly applicable to the core tasks of a Product Design Engineer, helping learners master feature refinement and advanced geometry creation. The ability to create extruded cuts, apply fillets and chamfers, and utilize revolve boss and revolve cut features is crucial for developing sophisticated product components and optimizing their form and fit. This course helps learners gain the practical skills to confidently design, analyze, and refine product solutions in a professional environment. This role often requires an advanced degree.
Rapid Prototyping Specialist
Rapid Prototyping Specialist
A Rapid Prototyping Specialist converts digital designs into physical prototypes using various additive and subtractive manufacturing technologies. This role requires adeptness in handling and optimizing 3D CAD models for different fabrication processes. The SOLIDWORKS Revolution and Cut Features course directly supports the capabilities of a Rapid Prototyping Specialist by reinforcing essential skills in feature refinement and advanced geometry creation. Proficiency in creating extruded cuts, applying fillets and chamfers, and mastering revolve boss and revolve cut features is crucial for preparing clean, manufacturable CAD models, particularly for complex and axisymmetric objects, ensuring successful physical realization. This course helps learners to ensure optimal outcomes when transitioning from digital to physical prototypes.
Prototyping Engineer
Prototyping Engineer
A Prototyping Engineer creates functional models and test pieces to validate designs before full-scale production. This role bridges the gap between digital design and physical reality, often requiring direct manipulation of CAD models for various prototyping methods like 3D printing or CNC machining. The SOLIDWORKS Revolution and Cut Features course is very helpful for a Prototyping Engineer by strengthening skills in creating accurate and refined 3D CAD models. Proficiency in extruded cuts, fillets, chamfers, and revolve features is critical for preparing designs that can be successfully manufactured as prototypes, ensuring proper fit, form, and function. This course helps learners ensure their digital designs are robust and ready for physical manifestation. This role often requires an advanced degree.
Manufacturing Engineer
Manufacturing Engineer
A Manufacturing Engineer optimizes production processes, designs tooling, and ensures the efficient and cost-effective production of goods. This often involves creating or modifying mechanical designs to improve manufacturability and developing fixtures. The SOLIDWORKS Revolution and Cut Features course provides valuable skills for a Manufacturing Engineer by focusing on precise 3D modeling and feature refinement. Understanding how to create accurate designs with extruded cuts, fillets, chamfers, and revolve features is essential for designing custom manufacturing aids, assessing part feasibility, and optimizing components for various production methods. This course helps learners develop the ability to translate design intent into manufacturable solutions, a critical aspect of this engineering discipline. This role often requires an advanced degree.
Aerospace Design Engineer
Aerospace Design Engineer
An Aerospace Design Engineer develops components and systems for aircraft, spacecraft, and missiles, demanding extreme precision and adherence to rigorous standards. This work involves complex 3D CAD modeling to ensure structural integrity and aerodynamic efficiency. The SOLIDWORKS Revolution and Cut Features course may be helpful for an Aerospace Design Engineer by enhancing skills in advanced geometry creation and feature refinement. Mastering extruded cuts, fillets, chamfers, and revolve features is essential for modeling the sophisticated and often axisymmetric components found in aerospace applications, such as engine parts or fuselage sections. This course helps learners develop the precision required for high performance aerospace designs. This role typically requires an advanced degree.
Industrial Designer
Industrial Designer
An Industrial Designer focuses on the form, function, and user experience of products, blending aesthetics with practicality. While often more focused on conceptualization, industrial designers frequently use 3D CAD to visualize and refine their designs for manufacturing. The SOLIDWORKS Revolution and Cut Features course may be a helpful resource for an Industrial Designer in translating their concepts into precise, manufacturable 3D models. The ability to create sophisticated geometries using extruded cuts, fillets, chamfers, and revolve features is particularly useful for achieving desired product shapes and ensuring design intent translates accurately into digital prototypes. This course helps learners refine their designs for both aesthetic appeal and technical feasibility.
Robotics Mechanical Engineer
Robotics Mechanical Engineer
A Robotics Mechanical Engineer designs and develops the physical structures, mechanisms, and components for robotic systems. This role demands strong 3D CAD skills to create robust, efficient, and precise mechanical parts that interact seamlessly within complex robotic assemblies. The SOLIDWORKS Revolution and Cut Features course may be helpful for a Robotics Mechanical Engineer by enhancing their abilities in feature refinement and advanced geometry creation. Mastering extruded cuts, fillets, chamfers, and revolve features is crucial for modeling various robotic components, including actuators, linkages, and structural elements, many of which can be axisymmetric. This course helps learners to develop and refine the mechanical designs that form the backbone of robotic systems. This role often requires an advanced degree.
Automotive Design Engineer
Automotive Design Engineer
An Automotive Design Engineer specializes in the design and development of vehicle components and systems, focusing on performance, safety, and manufacturability. This field relies heavily on advanced 3D CAD for creating intricate parts and complex assemblies. The SOLIDWORKS Revolution and Cut Features course may be useful for an Automotive Design Engineer by providing practical skills in advanced geometry creation and feature refinement. The ability to create precise extruded cuts, apply fillets and chamfers, and utilize revolve boss and revolve cut features is invaluable for modeling various automotive components, many of which involve complex or axisymmetric geometries. This course helps learners to refine designs for optimal integration and performance within automotive systems. This role typically requires an advanced degree.
Additive Manufacturing Technician
Additive Manufacturing Technician
An Additive Manufacturing Technician operates 3D printers and related equipment to produce physical parts from digital models. A key part of this role involves preparing and optimizing CAD files for the additive manufacturing process. The SOLIDWORKS Revolution and Cut Features course may be useful for an Additive Manufacturing Technician by improving their ability to create and refine 3D models. The skills in applying extruded cuts, fillets, chamfers, and revolve features are critical for ensuring that designs are clean, structurally sound, and printable, particularly for complex and axisymmetric objects. This course helps learners to efficiently prepare designs for successful 3D printing and post processing.
Biomedical Device Designer
Biomedical Device Designer
A Biomedical Device Designer creates innovative medical instruments, implants, and prosthetics that address healthcare needs. This field requires a meticulous approach to 3D CAD modeling for functional, ergonomic, and regulatory compliance. The SOLIDWORKS Revolution and Cut Features course may be helpful for a Biomedical Device Designer by strengthening their skills in advanced geometry creation and feature refinement. The ability to precisely apply extruded cuts, fillets, chamfers, and master revolve boss and revolve cut features is essential for designing the often intricate and sometimes axisymmetric components used in medical devices. This course helps learners develop the precision needed for critical device design. This role typically requires an advanced degree.
For more career information including salaries, visit:
OpenCourser.com/course/rpm232/solidworks
Reading list
We haven't picked any books for this reading list yet.
A comprehensive guide to SolidWorks API 2023, covering all the essential tools and techniques for developing custom applications and add-ins.
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A practical, hands-on guide to SolidWorks 2023 for designers, covering the basics of 3D modelling, assembly design, and drawing creation.
An advanced guide to SolidWorks 2023, covering advanced techniques for 3D modelling, assembly design, and drawing creation.
A comprehensive guide to SolidWorks Simulation 2023, covering all the essential tools and techniques for finite element analysis (FEA) and computational fluid dynamics (CFD).
A comprehensive guide to SolidWorks Flow Simulation 2023, covering all the essential tools and techniques for computational fluid dynamics (CFD).
A comprehensive guide to SolidWorks Electrical 2023, covering all the essential tools and techniques for electrical design and analysis.
Offers a tutorial-based approach covering essential SOLIDWORKS commands and options. It's suitable for both beginners and experienced users and includes CSWA and CSWP sample questions, making it valuable for certification preparation. It provides a strong foundation in mechanical design principles using SOLIDWORKS.
Specifically written for users new to SOLIDWORKS, this book guides learners through the basics to more in-depth capabilities using real-life parts and assemblies. It's ideal for a freshman design class or as a companion to an engineering graphics textbook. The book includes video instruction and a CSWA practice exam.
Introduces new users to the basic concepts of SOLIDWORKS and good solid modeling techniques through easy-to-follow guides and video instruction. It covers the interface, basic commands, and strategies for part modeling, assembly, and detailing. It great starting point and includes preparation for the CSWA exam.
Offers a comprehensive introduction to SOLIDWORKS for beginner to intermediate users, focusing on engineering design principles. It utilizes projects with step-by-step instructions covering machined, plastic, and sheet metal components. It also touches upon Simulation and Intelligent Modeling techniques.
The first in a three-part series, this book introduces new users to the SOLIDWORKS interface, tools, and basic modeling techniques. It provides a strong understanding of creating parts, assemblies, and drawings through real-world projects broken down into comprehensible steps. This foundational text for beginners.
This textbook is suitable for senior undergraduate level and professionals, bridging the gap between SolidWorks and 3D printing. It offers a hands-on approach with pictorial descriptions for modeling, assembly, and drawings, and includes topics like motion analysis and FEA. It provides a comprehensive overview with a focus on practical applications.
Contains a series of tutorial-style lessons introducing parametric modeling techniques and concepts in SOLIDWORKS. It takes a hands-on, exercise-intensive approach, building on previous lessons. It is suitable for those looking to understand and apply parametric design principles.
Following Level I, this book teaches intermediate users advanced topics and techniques such as sheet metal, surfacing, top-down design, and mold design. It uses a task-oriented approach with video instruction and covers commands relevant to the CSWP Advanced and Expert exams. is valuable for deepening understanding beyond the basics.
Focuses on advanced techniques in SOLIDWORKS, including complex part modeling, advanced surfacing, sheet metal, SimulationXpress, top-down assembly design, and mold tools. It's suitable for users who have a solid understanding of the basics and intermediate concepts and want to master more complex workflows.
Introduces the fundamentals of Finite Element Analysis (FEA) concurrently with the use of SOLIDWORKS Simulation. It uses hands-on exercises with common parts to illustrate analysis features, building skills progressively. It's essential for those looking to perform simulations and analyze designs within SOLIDWORKS.
Designed for beginners and intermediate users, this textbook focuses on creating real-world sheet metal components in SOLIDWORKS. It covers the sheet metal design environment through tutorials and theory, emphasizing both tool usage and design concepts. It good resource for those specializing in sheet metal.
This tutorial-based book uses a project-based approach to teach SOLIDWORKS 3D modeling. It's a comprehensive guide for mastering the software's capabilities and is also useful for preparing for the CSWA exam. The step-by-step projects make it practical for hands-on learning.
Considered a classic in the realm of SolidWorks surfacing, this book delves into creating complex shapes and understanding the software's underlying mechanics. While an older publication, the foundational surfacing concepts remain relevant. It's a valuable resource for those seeking in-depth knowledge in this specific area.
For more information about how these books relate to this course, visit:
OpenCourser.com/course/rpm232/solidworks
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Rating
5.0
Effort
2 weeks of study, 4 hours/week
Level
Introductory
Via
Coursera
Institution
Dassault Systèmes
Instructor
SOLIDWORKS
Session
November 3, 2025
- December 1, 2025
Language
English
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