Manufacturing Guide for Mechanical Product Development from Udemy

Welcome to the course that will explain Manufacturing from the very basics – “Manufacturing Guide for Product Development”. Whether you are an engineer, product developer, emerging entrepreneur, or simply an Android or Java Developer who is intrigued by the world of manufacturing, this course will provide skills that will help you in many aspects of your engineering or non-engineering career.

Gain Manufacturing Knowledge without Spending $60,000 in Colleges and Universities

Complete overview of modern manufacturing methods
Video links that demonstrate these manufacturing methods to understand them visually
All complex industrial processes explained in the easiest manner; No unnecessary technical terms and jargons
Connection between manufacturing and product development
Understanding of how everyday products are made like bottles, grocery bags, smartphone case, pipes, metal containers etc.

Course Summary

Sometimes, even engineers who spend 4 years of college learning theories do not know enough about manufacturing. I have spent countless hours learning manufacturing theories and just as many hours practising in the mechanical engineering industry. I have compiled all the juicy and interesting things in this Udemy course while leaving out unnecessary things so this course is all you need.

Unlike computer programming, manufacturing and mechanical engineering are hands-on fields. You need to visit machine shops and factories to see the actual physical processes in order to learn properly. But, I have manufacturing-related video links in this course that will allow you to learn everything without having to visit hot and dirty factories.

The best thing about this course is that it uses the simplest language and avoids all the technical and unnecessarily complicated wording so you can understand even the most complicated topics with ease. As long as you have passion to learn amazing things

Contents and Overview

This course contains over 40 lectures, 2+ hours of contents, and a compilation of the best video demonstrations for each topic discussed.

I will cover these topics

Materials
Plastic Types
Concept Generation
Casting
Molding
Forming
Machining
Powder Processing
3D Printing
Joining

There is a lot to learn and you will have questions along the way. Feel free to post your questions and ideas onto the discussion board of this course and I will reply with an answer within 48 hours. I encourage students to participate as much as possible.

What's inside

Learning objectives

Make mechanical prototypes for design projects
Transform ideas into physical products and physical products into success

Understand how everyday things are made
Approach machine shops and manufacturing companies for manufacturing your product

Make mechanical prototypes for design projects
Transform ideas into physical products and physical products into success
Understand how everyday things are made
Approach machine shops and manufacturing companies for manufacturing your product

Syllabus

Introduction to the Course

This lecture provides a brief overview of why you should know manufacturing processes and techniques and how they can benefit you.

This lecture provides a summary of major types of materials used in manufacturing: Metals, polymers (or plastics), and ceramics.

Major types of manufacturing processes covered in this course: Casting, molding, forming, machining, powder processing, 3D printing, and joining.

This lecture covers how different factors affect what type of manufacturing process you should select and in what circumstances.

General introduction to casting. What casting is and the general procedure to cast metals.

General overview of molding. What molding is different types of molding methods covered in this course.

This lecture provides a clear distinction between three different types of plastics and their limitations.

This lecture provides an overview of what forming is and how it is different from casting and molding. Different types of forming processes covered in this course include forging, rolling, extrusion, drawing, and sheet metal forming.

This lecture discusses the importance of machining, its benefits, and its distinction from other processes. The machining equipment discussed in the course include drill press, lathe, milling machine, grinder, and CNC.

This lecture discusses the importance of powder processing and how metal and ceramic products can be made with powder processing.

This lecture introduces the students to the fantastic world of 3D printing and explains why there is so much hype around 3D printing technology. Main types of 3D printing techniques involve SLA and FDM.

This lecture provides an overview of different stages of product development cycle starting from the concept generation to project sustainability.

This short lecture discusses the role of CAD and drawings when it comes to manufacturing and how 3D CAD packages such as SolidWorks, Autodesk Inventor, and Unigraphics are important in manufacturing.

Traffic lights

Read about what's good

what should give you pause

and possible dealbreakers

Builds a strong foundation in manufacturing methods for diverse learners, including engineers, entrepreneurs, and developers

Offers practical insights from an industry expert with years of experience in mechanical engineering

Provides clear and accessible explanations of complex manufacturing processes, avoiding unnecessary jargon

Utilizes a variety of media, including video demonstrations, to enhance understanding

Covers a comprehensive range of manufacturing processes, from casting to 3D printing

Fosters practical skills for design projects and prototyping

Reviews summary

Manufacturing basics for product development

According to students, this course provides a clear and simple overview of various manufacturing methods essential for product development. Learners appreciate the focus on understanding everyday objects and the compilation of helpful video demonstrations. It's often seen as a solid starting point for those new to the field or non-engineers. However, some find the depth lacking for advanced topics, reflecting its introductory nature. The short duration means it serves best as a foundation rather than an exhaustive guide.

Overview of key manufacturing methods.

"The course touched upon all the main processes I needed to know about at a high level."

"Liked getting an overview of all the major manufacturing families: casting, molding, machining, etc."

"A good survey of different ways common products are made."

Visual demonstrations enhance learning.

"The linked external videos really helped visualize the manufacturing processes being discussed."

"Seeing the machines and techniques in action made a big difference in understanding."

"Appreciated the inclusion of real-world examples shown through short video clips."

Simplifying complex manufacturing ideas.

"The instructor did a great job breaking down complicated topics into understandable parts."

"I finally understood concepts like injection molding after years of hearing about them."

"Uses very simple language, making it easy to follow along even without prior knowledge."

Not detailed enough for engineers.

"This is too basic if you already have an engineering background or need detailed process parameters."

"I wish it went deeper into specific process variations and their implications."

"Only scratches the surface of many complex topics; more advanced learners might need supplements."

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 Manufacturing Guide for Mechanical Product Development with these activities:

Review Engineering Drawing Fundamentals

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Refresh your knowledge of engineering drawing to enhance your understanding of manufacturing processes.

Browse courses on Engineering Drawing

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Review basic principles of engineering drawing, such as orthographic projections and dimensioning.
Practice drawing simple objects and assemblies using CAD software or sketching techniques.

Read 'Manufacturing Processes for Engineering Materials'

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Build your knowledge of the fundamental manufacturing processes and their applications in engineering.

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Read the introduction and chapters 1-5 to understand the basics of manufacturing processes.
Focus on chapters 6-10 to delve into specific processes such as casting, forming, and machining.
Review the case studies and examples provided to enhance comprehension.

Attend a Manufacturing Industry Meetup

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Connect with professionals in the manufacturing industry to gain insights and expand your knowledge.

Browse courses on Networking

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Research and find an upcoming manufacturing industry meetup in your area.
Attend the meetup and actively participate in discussions.
Exchange contact information with other attendees.

Five other activities

Expand to see all activities and additional details

Show all eight activities

Explore Manufacturing Techniques with MadeIn Institute Videos

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Visualize and understand manufacturing techniques through interactive video demonstrations.

Browse courses on Manufacturing Processes

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Visit the MadeIn Institute website and browse their collection of manufacturing videos.
Select videos relevant to the course topics and watch them thoroughly.
Take notes on key concepts and processes demonstrated in the videos.

Complete Manufacturing Process Quizzes

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Test your understanding of manufacturing processes through interactive quizzes.

Browse courses on Manufacturing Processes

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Access online or downloadable quizzes on manufacturing processes.
Attempt the quizzes to assess your knowledge.
Review your answers and identify areas for improvement.

Join a Manufacturing Study Group

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Engage with fellow students and learn from each other's experiences and perspectives.

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Form a study group with classmates or join an existing one.
Set regular meeting times and discuss course material, assignments, and projects.
Collaborate on projects and share knowledge.

Design and Create a Prototype

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Apply your knowledge to design and create a physical prototype of a product or component.

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Identify a product or component that you want to create.
Research different manufacturing processes and select the most suitable one for your prototype.
Design the prototype using CAD software or sketching.
Fabricate the prototype using the selected manufacturing process.
Test and evaluate the prototype to identify areas for improvement.

Write a Whitepaper on a Manufacturing Process

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Deepen your understanding by researching and writing a whitepaper on a specific manufacturing process.

Browse courses on Manufacturing Processes

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Choose a manufacturing process that interests you and research its history, applications, and advantages.
Organize your research into a well-structured whitepaper.
Write the whitepaper, ensuring clear and concise language.
Proofread and edit your whitepaper carefully.

Career center

Learners who complete Manufacturing Guide for Mechanical Product Development will develop knowledge and skills that may be useful to these careers:

Mechanical Engineer

Mechanical Engineers design, develop, and test mechanical systems. This course provides a strong foundation in manufacturing processes and techniques, which can be helpful for Mechanical Engineers who need to understand how mechanical components are made and assembled. For example, the course covers topics such as casting, molding, forming, machining, and joining, which are all processes that can be used to create mechanical components.

See salaries and explore the career path for Mechanical Engineer

Tool and Die Maker

Tool and Die Makers create tools, dies, and fixtures used in manufacturing. This course provides a strong foundation in manufacturing processes and techniques, which can be helpful for Tool and Die Makers who need to understand how tools, dies, and fixtures are made and how to use them to create products. For example, the course covers topics such as casting, molding, forming, machining, and joining, which are all processes that can be used to create tools, dies, and fixtures.

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

Manufacturing Engineer

Manufacturing Engineers develop and implement efficient manufacturing processes. This course provides a comprehensive overview of manufacturing methods, which can be helpful for Manufacturing Engineers who need to understand how products are made and how to improve production efficiency. For example, the course covers topics such as casting, molding, forming, machining, and joining, which are all processes that are used in manufacturing.

See salaries and explore the career path for Manufacturing Engineer

Research and Development Engineer

Research and Development Engineers develop new products and technologies. This course provides a strong foundation in manufacturing processes and techniques, which can be helpful for Research and Development Engineers who need to understand how products are made and how to develop new manufacturing processes. For example, the course covers topics such as casting, molding, forming, machining, and joining, which are all processes that can be used to create new products and technologies.

See salaries and explore the career path for Research and Development Engineer

Production Manager

Production Managers oversee the production of goods and services. This course provides a comprehensive overview of manufacturing methods, which can be helpful for Production Managers who need to understand how products are made and how to manage production processes efficiently. For example, the course covers topics such as casting, molding, forming, machining, and joining, which are all processes that are used in manufacturing.

See salaries and explore the career path for Production Manager

Automotive Engineer

Automotive Engineers design, develop, and test automobiles and other vehicles. This course provides a strong foundation in manufacturing processes and techniques, which can be helpful for Automotive Engineers who need to understand how automobiles and other vehicles are made and how to design automobiles and other vehicles that can be manufactured efficiently. For example, the course covers topics such as casting, molding, forming, machining, and joining, which are all processes that can be used to create automobiles and other vehicles.

See salaries and explore the career path for Automotive Engineer

Aerospace Engineer

Aerospace Engineers design, develop, and test aircraft, spacecraft, and other aerospace vehicles. This course provides a strong foundation in manufacturing processes and techniques, which can be helpful for Aerospace Engineers who need to understand how aerospace vehicles are made and how to design aerospace vehicles that can be manufactured efficiently. For example, the course covers topics such as casting, molding, forming, machining, and joining, which are all processes that can be used to create aerospace vehicles.

See salaries and explore the career path for Aerospace Engineer

Materials Engineer

Materials Engineers develop and test materials used in a variety of products. This course provides a strong foundation in materials, which can be helpful for Materials Engineers who need to understand how materials are made and how they can be used in different applications. For example, the course covers topics such as metals, polymers, and ceramics, which are all materials that are used in manufacturing.

See salaries and explore the career path for Materials Engineer

Welding Engineer

Welding Engineers design and develop welding processes and equipment. This course provides a strong foundation in manufacturing processes and techniques, which can be helpful for Welding Engineers who need to understand how welding processes work and how to design and develop welding equipment. For example, the course covers topics such as casting, molding, forming, machining, and joining, which are all processes that can be used in welding.

See salaries and explore the career path for Welding Engineer

Industrial Engineer

Industrial Engineers design, improve, and install integrated systems for managing industrial production processes. This course provides a comprehensive overview of manufacturing methods, which can be helpful for Industrial Engineers who need to understand how products are made and how to improve production efficiency. For example, the course covers topics such as casting, molding, forming, machining, and joining, which are all processes that are used in manufacturing.

See salaries and explore the career path for Industrial Engineer

Product Designer

Product Designers create and develop new products. This course provides a comprehensive overview of manufacturing methods, which can be helpful for Product Designers who need to understand how products are made and how to design products that can be manufactured efficiently. For example, the course covers topics such as casting, molding, forming, machining, and joining, which are all processes that can be used to create products.

See salaries and explore the career path for Product Designer

Quality Assurance Manager

Quality Assurance Managers develop and implement quality control procedures. This course provides a strong foundation in manufacturing processes and techniques, which can be helpful for Quality Assurance Managers who need to understand how products are made and how to ensure that products meet quality standards. For example, the course covers topics such as casting, molding, forming, machining, and joining, which are all processes that can be used to create products.

See salaries and explore the career path for Quality Assurance Manager

Technical Writer

Technical Writers create technical documentation, such as user manuals, training materials, and marketing materials. This course provides a strong foundation in manufacturing processes and techniques, which can be helpful for Technical Writers who need to understand how products are made and how to write technical documentation that is accurate and easy to understand. For example, the course covers topics such as casting, molding, forming, machining, and joining, which are all processes that can be used to create products.

See salaries and explore the career path for Technical Writer

Sales Engineer

Sales Engineers sell products and services to businesses. This course provides a comprehensive overview of manufacturing methods, which can be helpful for Sales Engineers who need to understand how products are made and how to sell products to customers who are interested in manufacturing. For example, the course covers topics such as casting, molding, forming, machining, and joining, which are all processes that are used in manufacturing.

See salaries and explore the career path for Sales Engineer

Electrician

Electricians handle a variety of tasks that require an understanding of electrical systems, including installing, maintaining, and repairing electrical wiring, fixtures, and equipment. This course provides a strong foundation in manufacturing processes and techniques, which can be helpful for Electricians who need to understand how electrical components are made and assembled. For example, the course covers topics such as casting, molding, forming, machining, and joining, which are all processes that can be used to create electrical components.

See salaries and explore the career path for Electrician