PTC Onshape Course (CAD and PDM System) from Udemy

During this course, a set of exercises, examples and questionnaires are carried out to facilitate the understanding of the topics, a presentation is also used as additional didactic support and also an engine project is carried out.

The course is aimed at anyone who is interested in learning onshape

Subjects covered in the course:

1. SECTION:- SECTION :- SECTION:- SECTION: - SECTION: - SECCIÓN :- SECTION:-Planes

Introduction

Offset

Plane Point

Line Angle

Point Normal

Three Points

Mid Planes

Curve Point

8. SECTION:-MULTI- SECTION:- SECTION:--SECTION:-DRAWING

Create Basic Drawing

Sheet Panel and view properties

Section view

Detail view.

Auxiliary view

Break View

Crop view.

Basic Dimensions

Hole Table

Exploded view.

BOM table and callout

Export drawing

12. SECTION:-

Delete face.

Replace Face

13. SECCIÓN:- FRAMES

Basic Frame

Basic Frame-Merge tangents segments

End Cap

Gusset

Trim-Face

Trim-Group

What's inside

Learning objectives

Onshape definition
Create free onshape account
Recognize onshape interface
Design parts
Apply design intent concept
Master sketch

Multi-part part studios
Sketches
Assemblies
Calculate weight from parts and assemblies
Mates
V8 engine project

Onshape definition
Create free onshape account
Recognize onshape interface
Design parts
Apply design intent concept
Master sketch
Multi-part part studios
Sketches
Assemblies
Calculate weight from parts and assemblies
Mates
V8 engine project

Syllabus

Introduction

Introductión

Create onshape account

Document Page

Traffic lights

Read about what's good

what should give you pause

and possible dealbreakers

Covers a wide range of Onshape tools, from basic sketching to advanced 3D modeling techniques, providing a solid foundation for CAD design

Includes a V8 engine project, offering practical experience in applying learned skills to a complex, real-world design scenario

Explores assemblies and mates, which are essential for simulating how parts interact and function together in a complete product

Teaches how to calculate weight from parts and assemblies, which is crucial for design optimization and material selection

Requires learners to create an Onshape account, which may pose a barrier to entry for some learners due to software and hardware requirements

Reviews summary

Ptc onshape foundational course

According to students, this course offers a largely positive and practical introduction to the PTC Onshape CAD and PDM system. It is frequently highlighted as excellent for beginners, providing a solid foundation in core functionalities like sketching, part design, and assemblies. The hands-on projects, particularly the V8 engine project, are seen as highly valuable for practical application. While many found the instructor's explanations clear, a minority mentioned challenges with the audio quality or accent. Some learners noted it might be too basic for those with prior CAD experience, but overall, it is widely recommended for anyone starting with Onshape.

Mixed feedback on clarity and audio quality.

"Instructor explains clearly."

"Explanations were sometimes hard to follow due to accent/speed."

"The instructor's English is very poor which made following the lessons difficult."

"Audio quality could be better in some videos."

Covers essential Onshape features effectively.

"Covers sketching, parts, assemblies well."

"The multi-part part studio concept is crucial and explained well."

"Very comprehensive coverage of basic to intermediate Onshape features."

Hands-on projects effectively teach concepts.

"The project work is essential."

"The projects are practical."

"The V8 engine project ties everything together nicely."

"The project is great for hands-on learning."

Ideal starting point for new Onshape users.

"Excellent course, very practical... Highly recommended for beginners to Onshape."

"Perfect course for a complete beginner. Everything is explained step-by-step."

"Learned so much! Great for hands-on learning."

"Fantastic for learning Onshape from scratch."

May not suit users with prior CAD experience.

"Material is a bit basic if you have prior CAD experience."

"Not for intermediate users."

"Could use more advanced examples."

Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in PTC Onshape Course (CAD and PDM System) with these activities:

Review Basic CAD Principles

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Reviewing basic CAD principles will help you better understand the Onshape-specific tools and workflows covered in the course.

Browse courses on Technical Drawing

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Review the history and evolution of CAD software.
Study the fundamental concepts of 2D and 3D modeling.
Practice basic sketching and dimensioning techniques.

Machine Drawing

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Reviewing this book will help you understand the fundamentals of machine drawing, which are essential for creating accurate and detailed CAD models.

View Machine Drawing on Amazon

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Study the chapters on orthographic projection and sectioning.
Practice creating technical drawings from 3D models.
Pay attention to the dimensioning and tolerancing guidelines.

Sketching Practice

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Practicing sketching in Onshape will improve your proficiency with the software's interface and tools.

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Create a series of sketches using different geometric shapes.
Apply dimensions and constraints to the sketches.
Replicate existing designs from images or drawings.

Four other activities

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Show all seven activities

Engineering Design with SOLIDWORKS 2022

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Reviewing this book will help you understand the broader context of CAD and engineering design, even though it focuses on a different software.

View Engineering Design with SOLIDWORKS 2022: A Step... on Amazon

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Read the chapters on sketching, part modeling, and assembly design.
Compare and contrast the SOLIDWORKS tools and workflows with those in Onshape.
Try to replicate some of the example designs in Onshape.

Design a Simple Mechanical Part

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Designing a mechanical part from scratch will allow you to apply the concepts learned in the course and solidify your understanding of Onshape's features.

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Choose a simple mechanical part to design (e.g., a bracket, a lever).
Create a detailed sketch of the part with accurate dimensions.
Use Onshape's modeling tools to create a 3D model of the part.
Refine the design and add any necessary features.

Create a Portfolio of Onshape Designs

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Creating a portfolio will showcase your skills and help you retain knowledge by actively applying what you've learned.

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Select your best Onshape designs from the course and personal projects.
Create high-quality renderings or screenshots of your designs.
Write a brief description of each design, highlighting its key features and design considerations.
Organize your designs into a professional-looking portfolio (e.g., using a website or presentation software).

Explore Advanced Onshape Tutorials

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Following advanced tutorials will expose you to more complex modeling techniques and features in Onshape.

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Search for tutorials on specific Onshape features (e.g., surfacing, sheet metal, configurations).
Follow the tutorials step-by-step, paying attention to the underlying principles.
Try to apply the techniques learned in the tutorials to your own designs.

Career center

Learners who complete PTC Onshape Course (CAD and PDM System) will develop knowledge and skills that may be useful to these careers:

Computer-Aided Design Technician

A Computer Aided Design Technician uses software to create models and drawings of products and components. This course helps build a foundation in Onshape, a specific computer aided design system. Computer Aided Design Technicians need to be proficient in using software to design parts, create drawings, and manage design data. Using a computer aided design system allows technicians to follow design intent concepts, master sketches, create multi-part studios, create assemblies, and calculate weight from parts and assemblies. This course provides hands-on experience with exercises, examples, and questionnaires that may be quite useful to the professional CAD technician.

See salaries and explore the career path for Computer-Aided Design Technician

Drafter

Drafters prepare technical drawings and plans. The drafter will likely need to use computer aided design software to design parts, apply design intent concepts, master sketches, create multi-part studios, create assemblies, and calculate weight from parts and assemblies. This course will be useful for drafters who want to learn Onshape. You will learn how to create exploded views, and how to export drawings. You will also learn about basic frame design, end caps, gussets, and trim operations.

See salaries and explore the career path for Drafter

Automotive Engineer

Automotive Engineers design vehicles and vehicle components. The Automotive Engineer uses computer aided design software to design parts, apply design intent concepts, master sketches, create multi-part studios, create assemblies, and calculate weight from parts and assemblies. In this course, you will also carry out an engine project. Knowing how to use computer aided design software will be very useful to the budding automotive engineer. This course helps one to create a new account, design parts, and master sketches.

See salaries and explore the career path for Automotive Engineer

Design Engineer

Design Engineers develop new product designs. The Design Engineer must be proficient in a CAD system. Design engineers leverage computer aided design software to design parts, apply design intent concepts, master sketches, create multi-part studios, create assemblies, and calculate weight from parts and assemblies. The presentations, exercises, examples and questionnaires that are carried out will help the design engineer to learn Onshape. This course teaches one how to measure, assign materials, and calculate weight. You will learn about basic frame design, end caps, gussets, and trim operations.

See salaries and explore the career path for Design Engineer

Design Technician

Design Technicians assist engineers and designers in developing products. The Design Technician will likely need to use computer aided design software to design parts, apply design intent concepts, master sketches, create multi-part studios, create assemblies, and calculate weight from parts and assemblies. This course may be useful as you will learn the Onshape interface. You will also learn how to create basic drawings including section, detail, and auxiliary views. You will learn about sheet panel and view properties.

See salaries and explore the career path for Design Technician

Engineering Technician

Engineering Technicians work alongside engineers in research, design, and development. The Engineering Technician needs to be familiar with computer aided design software to design parts or run simulations. The Engineering Technician will likely need to use computer aided design software to design parts, apply design intent concepts, master sketches, create multi-part studios, create assemblies, and calculate weight from parts and assemblies. This course will be useful for you to learn the Onshape interface. You will also learn how to create basic drawings including section, detail, and auxiliary views.

See salaries and explore the career path for Engineering Technician

Industrial Designer

Industrial Designers develop the design of manufactured products, focusing on aesthetics and usability. The Industrial Designer will likely need to use computer aided design software to design parts, apply design intent concepts, master sketches, create multi-part studios, create assemblies, and calculate weight from parts and assemblies. This course helps build familiarity with Onshape, a particular CAD system. You will learn about basic frame design, end caps, gussets, and trim operations. You will also learn how to create basic drawings.

See salaries and explore the career path for Industrial Designer

Product Designer

Product Designers are involved in the entire lifecycle of a product, from ideation to manufacturing. This course may be useful for product designers because they need to be proficient in software systems to create models and drawings. A product designer needs to be familiar with software to design parts, apply design intent concepts, master sketches, create multi-part studios, create assemblies, and calculate weight from parts and assemblies. This course helps build familiarity with Onshape, a particular system. You will learn about basic frame design, end caps, gussets, and trim operations. You will also learn how to create basic drawings.

See salaries and explore the career path for Product Designer

Mechanical Engineer

Mechanical Engineers design, develop, and test mechanical devices. This course may be useful for mechanical engineers who want to use computer aided design software to design parts. Skills in computer aided design systems allows mechanical engineers to follow design intent concepts, master sketches, create multi-part studios, create assemblies, and calculate weight from parts and assemblies. The engine project in this course may be especially useful for future mechanical engineers. Mechanical engineers often specialize, and learning Onshape may give students a specialization that will help them stand out.

See salaries and explore the career path for Mechanical Engineer

Manufacturing Engineer

Manufacturing Engineers develop manufacturing processes. As a manufacturing engineer, you might use computer aided design software to optimize designs for manufacturability. You will likely need to know how computer aided design systems work. Skills in computer aided design systems allow manufacturing engineers to design parts, apply design intent concepts, master sketches, create multi-part studios, create assemblies, and calculate weight from parts and assemblies. In this course, you will learn about part design, sketch tools, and how to modify sketches. Knowing the intricacies of Onshape may be particularly helpful.

See salaries and explore the career path for Manufacturing Engineer

Tool and Die Maker

Tool and Die Makers manufacture tools, dies, and molds. The tool and die maker will likely need to use computer aided design software to design parts, apply design intent concepts, master sketches, create multi-part studios, create assemblies, and calculate weight from parts and assemblies. This course may be useful for tool and die makers who want to learn Onshape. You will learn to recognize the Onshape interface. You will also learn about basic frame design, end caps, gussets, and trim operations.

See salaries and explore the career path for Tool and Die Maker

CAD Manager

A CAD Manager is responsible for managing computer aided design systems within an organization. As a CAD manager, it's crucial to have a deep understanding of the software being used. Skills in computer aided design systems allow a CAD Manager to help design parts, apply design intent concepts, master sketches, create multi-part studios, create assemblies, and calculate weight from parts and assemblies. This course can prove useful, as you will learn about the Onshape interface and how to customize your account. You will also learn about basic frame design, end caps, gussets, and trim operations.

See salaries and explore the career path for CAD Manager

Aerospace Engineer

Aerospace Engineers design aircraft and spacecraft. An Aerospace Engineer will likely need to use computer aided design software to design parts, apply design intent concepts, master sketches, create multi-part studios, create assemblies, and calculate weight from parts and assemblies. This course may be useful to Aerospace Engineers who want to learn the Onshape system. In this course, you will learn about basic frame design, end caps, gussets, and trim operations. You will also learn how to create basic drawings including section, detail, and auxiliary views.

See salaries and explore the career path for Aerospace Engineer

Civil Engineer

Civil Engineers design and oversee the construction of infrastructure projects. Civil Engineers may need to use computer aided design software for structural design. The Civil Engineer who wishes to enter structural design may use computer aided design software to design parts, apply design intent concepts, master sketches, create multi-part studios, create assemblies, and calculate weight from parts and assemblies. This course may be useful for Civil Engineers who want to learn Onshape. You will also learn how to create basic drawings including section, detail, and auxiliary views.

See salaries and explore the career path for Civil Engineer

Architectural Designer

Architectural Designers create designs and plans for buildings and structures. This course may be useful for Architectural Designers who want to learn Onshape. Architectural Designers will likely leverage computer aided design software to design parts, apply design intent concepts, master sketches, create multi-part studios, create assemblies, and calculate weight from parts and assemblies. In this course, you will also learn how to create basic drawings including section, detail, and auxiliary views. You will learn about sheet panel and view properties.

See salaries and explore the career path for Architectural Designer

Reading list

We've selected two books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in PTC Onshape Course (CAD and PDM System).

Machine Drawing

Save

Provides a strong foundation in the principles of machine drawing, which are essential for creating accurate and detailed CAD models. It covers topics such as orthographic projection, sectioning, and dimensioning. This book is particularly helpful for understanding how to create technical drawings from 3D models. It is commonly used as a textbook in engineering courses.

Machine Drawing

Paperback

$$$

Engineering Design with SOLIDWORKS 2022

Save

Provides a comprehensive guide to engineering design using SOLIDWORKS, a similar CAD software to Onshape. While the specific tools and interface may differ, the underlying design principles and workflows are largely the same. This book is particularly useful for understanding advanced modeling techniques and design optimization strategies. It can be used as a reference to deepen your understanding of CAD concepts.

Engineering Design with SOLIDWORKS 2022: A Step-by...

Paperback

$$$

PTC Onshape Course (CAD and PDM System)

What's inside

Learning objectives

Syllabus

Traffic lights

Save this course

Reviews summary

Ptc onshape foundational course

Activities

Career center

Reading list

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