Mechanical Engineering Design - The Ultimate Course from Udemy

Our world is brimming with machinery, from toasters to smartphones, agricultural equipment to automobiles, and satellites. Our lives are shaped by these machines and how they are designed. Regardless of their size or purpose, these machines are all precisely designed for specific tasks, relying on essential mechanical elements to function effectively.

In this course you will learn everything regarding the theory behind design of mechanical machines and elements that make up their mechanisms. This course will cover everything from theory of design to mechanics of materials, stress analysis theory to design of mechanical elements to basic introduction to design tools like Computer Aided Design and Finite Element Analysis.

This Course will cover following topics, which divided into three parts each covering a separate sub discipline of Mechanical Design Engineering.

Part 1 Design Theory and Mechanics of Materials

Basics of Mechanical Design Engineering

Engineering Materials

Stress Analysis

Failure Prevention for Static Loading

Failure Prevention for Dynamic Loading

Part 2 Design of Machine Elements

Design of Rotating Shafts

Design of Non-Permanent Joints

Design of Permanant Joints

Design of Bearings

Design of Gears

Design of Belt Drives

Part 3 Design Tools

Computer Aided Design with SolidWorks

Finite Element Analysis with ANSYS

So, jump in and let's start learning

What's inside

Syllabus

Course Introduction

Course Curriculum

Basics of Mechanical Design Engineering

What is Design and Mechanical Engineering Design?

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what should give you pause

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Covers a wide range of topics, from design theory and mechanics of materials to the design of machine elements, providing a comprehensive overview of mechanical engineering design principles

Includes hands-on experience with industry-standard tools like SolidWorks and ANSYS, which are essential for modern mechanical design and analysis

Explores failure prevention for both static and dynamic loading, which is crucial for ensuring the reliability and safety of mechanical designs

Requires familiarity with engineering concepts, which may necessitate prior coursework or experience in a related field

Focuses on design of specific machine elements like shafts, joints, bearings, gears, and belt drives, offering practical knowledge for real-world applications

Uses SolidWorks and ANSYS, which may require learners to acquire licenses or access to these software packages, potentially adding to the overall cost

Reviews summary

Comprehensive mechanical design engineering fundamentals

According to students, this course offers a highly comprehensive overview of mechanical engineering design. Learners appreciate the strong theoretical foundation provided, covering mechanics of materials, stress analysis, and failure prevention in detail. The sections on the design of key machine elements like shafts, joints, bearings, and gears are particularly valued for their practical relevance. However, some students note that the modules on CAD (SolidWorks) and FEA (ANSYS) are introductory and serve more as an overview than in-depth training on the tools. Overall, reviews suggest it's a solid course for building foundational knowledge, though supplementary study may be needed for software proficiency or deeper dives into specific areas.

Varied experiences with course speed.

"Found the pace challenging but manageable if you make sure to follow along and do the practice problems."

"Moves quickly through complex topics at times; be prepared to pause and re-read sections to fully grasp them."

"It's great for a broad brushstroke of the field, but some specific areas could use more detailed examples or depth."

Detailed look at shafts, gears, joints.

"Loved the practical design examples and calculations provided for shafts and bearings."

"The section on gear design was very clear and easy to follow, making complex concepts accessible."

"Understanding fastener and weld joint design principles covered here was really helpful for my projects."

Deep dive into design principles.

"Excellent theoretical base, really clarifies the 'why' behind different design decisions."

"The sections on stress analysis and various failure theories were particularly strong and well-explained."

"If you need a solid grasp of the underlying math and physics for mechanical design, this provides it."

Wide array of design topics covered.

"This course covers a lot of ground, from mechanics of materials to machine elements design and even intro to CAD/FEA."

"I appreciate how many different topics are introduced; it's a great overview for mechanical design."

"The syllabus is packed with essential topics covering the core of mechanical design engineering."

Basic overview of SolidWorks/ANSYS.

"The CAD/FEA parts are just introductions, don't expect to become a pro user just from this course."

"Good overview of ANSYS and SolidWorks interfaces and basic workflows, but not deep dives into advanced features."

"I learned the basics of using the tools, but I would definitely need to take another course for proficiency."

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 Mechanical Engineering Design - The Ultimate Course with these activities:

Review Statics and Mechanics of Materials

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Reinforce your understanding of fundamental concepts like stress, strain, and free body diagrams, which are essential for success in mechanical design.

Browse courses on Mechanics of Materials

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Review textbooks and notes from previous statics and mechanics of materials courses.
Work through practice problems focusing on stress analysis and material properties.
Identify areas where your understanding is weak and seek out additional resources.

Review 'Fundamentals of Machine Component Design'

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Deepen your understanding of machine component design principles with a widely respected textbook.

View Fundamentals of Machine Component Design, 7th... on Amazon

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Read the chapters relevant to the current course topics.
Work through the example problems in the book.
Compare the book's approach to the course material.

Follow SolidWorks Tutorials

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Enhance your CAD skills by working through SolidWorks tutorials focusing on 3D modeling and assembly creation.

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Find SolidWorks tutorials online.
Follow the tutorials step-by-step.
Practice applying the techniques learned in the tutorials.

Four other activities

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Stress Analysis Practice Problems

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Improve your stress analysis skills by working through a series of practice problems covering different loading conditions and geometries.

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Find stress analysis practice problems online or in textbooks.
Solve the problems independently.
Check your answers against the solutions.
Review the concepts and formulas used in the problems.

Design a Simple Machine Component

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Apply the concepts learned in the course by designing a simple machine component, such as a shaft, bearing support, or bolted connection.

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Select a machine component to design.
Define the design requirements and constraints.
Perform stress analysis and select appropriate materials.
Create a detailed design using CAD software.
Document your design process and results.

Explore 'Shigley's Mechanical Engineering Design'

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Expand your knowledge with a comprehensive and widely respected mechanical engineering design textbook.

View Shigley's Mechanical Engineering Design: 2024... on Amazon

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Read chapters related to course topics.
Solve example problems and exercises.
Compare the book's approach with the course material.

FEA Simulation Report

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Create a report documenting the results of a finite element analysis (FEA) simulation performed using ANSYS.

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Select a component or assembly to simulate.
Create a finite element model in ANSYS.
Run the simulation and analyze the results.
Write a report summarizing the simulation setup, results, and conclusions.

Career center

Learners who complete Mechanical Engineering Design - The Ultimate Course will develop knowledge and skills that may be useful to these careers:

Mechanical Engineer

A mechanical engineer designs, develops, builds, and tests mechanical and thermal devices, including tools, engines, machines, and other mechanical devices. This course covers the theory behind the design of mechanical machines and elements, which helps build a strong foundation for a mechanical engineer. The curriculum, including topics from mechanics of materials to stress analysis theory to the design of mechanical elements, offers a comprehensive understanding of mechanical design engineering. Furthermore, the introduction to design tools like Computer Aided Design and Finite Element Analysis helps those who wish to become a mechanical engineer.

See salaries and explore the career path for Mechanical Engineer

Design Engineer

A design engineer is responsible for creating and developing new product designs or improving existing ones. This course fits perfectly into the career path of a design engineer by providing a thorough education in the principles and practices of mechanical design. The course, which includes design theory, mechanics of materials, stress analysis, and the design of machine elements, helps the engineer build a well rounded foundation. This course may be particularly helpful due to the introduction to Computer Aided Design and Finite Element Analysis.

See salaries and explore the career path for Design Engineer

Product Development Engineer

A product development engineer conceives ideas for new products, researches their feasibility, and oversees the design and production process. Since the course covers a wide range of topics essential to the product development process, including design theory, mechanics of materials, stress analysis, and the design of machine elements, this course is a solid fit. Furthermore, the course's introduction to Computer Aided Design with SolidWorks and Finite Element Analysis with ANSYS may be particularly useful tools for a product development engineer.

See salaries and explore the career path for Product Development Engineer

Stress Analyst

A stress analyst uses engineering principles and computer simulations to evaluate the integrity and reliability of mechanical components and structures under various loading conditions. With its extensive coverage of stress analysis, including equilibrium and free body diagrams, normal and shear stress, stress transformations, Mohr's circle, and stresses for beams in bending, this course may be particularly beneficial. Moreover, this course's introduction to Finite Element Analysis with ANSYS may provide a stress analyst with valuable practical experience.

See salaries and explore the career path for Stress Analyst

CAD Technician

A Computer Aided Design technician uses Computer Aided Design software to create detailed technical drawings and models for a variety of engineering projects. This course introduces Computer Aided Design with SolidWorks, which provides practical skills and knowledge of the tools used by a Computer Aided Design technician. The course introduces the Computer Aided Design user interface, two dimensional sketching, three dimensional Computer Aided Design modeling, assembly creation, and drawings preparation, which may prove extremely valuable.

See salaries and explore the career path for CAD Technician

Manufacturing Engineer

A manufacturing engineer develops and optimizes the manufacturing processes to ensure efficient production of high quality products. This course helps one become a manufacturing engineer because it covers the basics of mechanical engineering design. It also introduces the design of mechanical machines and elements that make up their mechanisms. Specifically, studies in design theory, mechanics of materials, stress analysis theory, and design of mechanical elements may prove to be very useful.

See salaries and explore the career path for Manufacturing Engineer

Robotics Engineer

A robotics engineer designs, builds, tests, and maintains robots and robotic systems. The course's focus on the theory behind the design of mechanical machines and elements helps build a strong foundation for a robotics engineer. A robotics engineer may find that the curriculum covering mechanics of materials, stress analysis theory, and the design of mechanical elements helps them to succeed. The introduction to Computer Aided Design and Finite Element Analysis may also be very beneficial.

See salaries and explore the career path for Robotics Engineer

Aerospace Engineer

An aerospace engineer designs, develops, and tests aircraft, spacecraft, satellites, and missiles. This course may be useful because it provides a basis in mechanical design principles. The course covers the theory behind the design of mechanical machines and elements, mechanics of materials, stress analysis theory, and design of mechanical elements. Aerospace engineers may find the introduction to Computer Aided Design and Finite Element Analysis beneficial as well.

See salaries and explore the career path for Aerospace Engineer

Automotive Engineer

An automotive engineer researches, designs, and develops vehicles and their component systems. The course covers topics critical to automotive engineering, such as the design of mechanical machines and elements, mechanics of materials, stress analysis theory, and the design of mechanical elements which may be helpful. An automotive engineer may also find the introduction to Computer Aided Design and Finite Element Analysis to be useful in their role.

See salaries and explore the career path for Automotive Engineer

Civil Engineer

A civil engineer designs, constructs, and maintains infrastructure projects such as roads, bridges, buildings, and water systems. While civil engineering focuses on larger scale structures, this course's coverage of mechanics of materials and stress analysis may provide valuable insights into structural integrity and design considerations. The principles of stress analysis, failure prevention, and material properties may be relevant to ensuring the safety and durability of civil engineering projects.

See salaries and explore the career path for Civil Engineer

Materials Scientist

A materials scientist researches and develops new materials with specific mechanical, electrical, or chemical properties. This course may be useful due to the course's coverage of engineering materials, material properties, temperature effects, and types of materials. The course also discusses metals, metal numbering systems, and heat treatment, which helps the materials scientist understand the relationships between material structure and performance making them well suited to contribute to the science.

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Quality Control Engineer

A quality control engineer develops and implements procedures for monitoring product quality and ensuring adherence to standards. The course curriculum covers crucial aspects of mechanical design that may be useful for quality control. Understanding stress analysis, failure prevention, and material properties, can contribute to assessing the reliability and performance of mechanical components. This may help a quality control engineer identify potential weaknesses and ensure products meet design specifications.

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Technical Sales Engineer

A technical sales engineer sells complex technical products or services to businesses or organizations. While primarily a sales role, a technical sales engineer needs a solid understanding of the products they are selling. This course may provide them with a broad understanding of mechanical engineering principles, design processes, and manufacturing techniques, giving them more credibility with clients. Understanding Computer Aided Design and Finite Element Analysis may also help in communicating the value proposition of the products.

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Technical Writer

A technical writer creates technical documentation, such as user manuals, installation guides, and white papers. While seemingly unrelated, a technical writer who specializes in mechanical engineering topics may find this course helpful. Covering topics like design theory, mechanics of materials, and Computer Aided Design, the course may provide a technical foundation that may allow the technical writer to create accurate and informative documentation for a target audience of engineers and technicians.

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Science Teacher

A science teacher educates students in subjects such as physics, chemistry, and biology. For a science teacher who teaches physics or engineering related courses, this course may be helpful. The extensive coverage of mechanical design principles, mechanics of materials, and stress analysis may allow the teacher to deepen their subject matter expertise. Furthermore, the introduction to Computer Aided Design and Finite Element Analysis may allow teachers to offer more insight to their students.

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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 Mechanical Engineering Design - The Ultimate Course.

Fundamentals of Machine Component Design, 7th...

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Provides a comprehensive overview of machine component design principles. It covers topics such as stress analysis, fatigue, and the design of various machine elements. It serves as an excellent reference for understanding the theoretical foundations and practical applications covered in the course. This book is commonly used as a textbook in mechanical engineering programs.

Fundamentals of Machine Component Design, 7th...

Paperback

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Fundamentals of Machine Component Design, 7th...

Kindle Edition

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Shigley's Mechanical Engineering Design ISE

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This widely used textbook for mechanical engineering design. It provides a comprehensive treatment of the subject, covering topics such as stress analysis, fatigue, and the design of various machine elements. It valuable resource for students and practicing engineers alike. offers more depth on topics covered in the course.

Shigley's Mechanical Engineering Design: 2024...

Paperback

Mechanical Engineering Design - The Ultimate Course

What's inside

Syllabus

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Reviews summary

Comprehensive mechanical design engineering fundamentals

Activities

Career center

Reading list

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