Mechanical Engineering Design - The Ultimate Course

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Umair Ahmad Khan

18:37:04

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1. Course Introduction

1. Course Curriculum.mp4

04:10

2. Basics of Mechanical Design Engineering

1. What is Design and Mechanical Engineering Design.mp4

05:32

2. Mechanical Design Process.mp4

09:08

3. Standards and Codes.mp4

06:46

4. Economics of Mechanical Design.mp4

11:28

5. Uncertainties and Design Factor.mp4

09:09

6. Factor of Safety.mp4

06:56

7. Practice Problem 2A.mp4

11:23

8. Dimensions and Tolerances.mp4

20:13

3. Engineering Materials

1. Importance of Material Selection.mp4

03:25

2. Material Properties - A.mp4

06:35

3. Material Properties - B.mp4

19:47

4. Temperature Effects on Material Properties.mp4

10:43

5. Types of Materials.mp4

06:18

6. Metals.mp4

07:25

7. Metals Numbering Systems.mp4

06:16

8. Heat Treatment.mp4

11:50

9.1 ASHBY CHARTS.pdf

9. Material Selection (Ashby Charts).mp4

23:52

4. Stress Analysis

1. Equilibrium & Free Body Diagrams.mp4

05:44

2. Normal & Shear Stress.mp4

05:48

3. Shear Force and Bending Moment Diagrams.mp4

26:43

4. Cartesian Components of Stress.mp4

13:03

5. Plane Stress Transformations.mp4

11:27

6. 2D Mohrs Circle.mp4

08:30

7. Practice Problem 4A (Stress Transformation).mp4

11:40

8. Elastic Strain and Poissons Ratio.mp4

09:21

9. Stresses for Beams in Bending.mp4

26:43

10. Practice Problem 4B (Bending Stress).mp4

15:15

5. Failure Prevention - Static Loading

1. Static Loading and Failure.mp4

05:10

2. Failure Theories.mp4

05:49

3. Maximum Shear Stress or Tresca Theory.mp4

21:44

4. Distortion Energy Theory.mp4

20:11

5. Ductile Coulomb-Mohr Theory.mp4

20:02

6. Failure Theories for Brittle Materials.mp4

07:08

7. Selection of Failure Criteria.mp4

03:10

6. Failure Prevention - FatigueVariable Loading

1. Introduction to Fatigue in Metals.mp4

08:40

2. Fatigue Testing and SN Curves.mp4

13:30

3. Factors Affecting Endurance Limit.mp4

19:16

4. Quantifying Alternating Stresses.mp4

10:55

7. Design of Shafts

1. Introduction to Shafts and their layout.mp4

08:50

2. Designing Shafts against Fatigue Failure.mp4

14:16

3. Critical Speed of Shafts - A.mp4

25:26

4. Critical Speeds of Shafts - B.mp4

18:24

8. Design of Non-Permanent Joints (Fasteners)

1. Fasteners and Thread Standards.mp4

25:02

2. Power Screw Mechanics - A.mp4

23:35

3. Power Screws Mechanics - B.mp4

17:50

4. Fastener Stiffness in a bolted joint.mp4

14:18

5. Bolted Joint under External Load.mp4

15:58

6. Fatigue Loading of Bolted Joints.mp4

18:59

9. Design of Permanent Joints (Welding)

1. Permanent Joints and Welding Symbols.mp4

15:47

2. Stresses in Butt Welds and Fillet Welds.mp4

22:13

3. Welded Joints in Torsion and Bending.mp4

10:57

4. Strength of Weld Joints.mp4

11:44

5. Resistance Welding & Adhesive Bonding.mp4

13:40

10. Design of Bearings

1. Bearings and their Nomenclature.mp4

09:23

2. Bearing Life.mp4

31:46

3.1 10.3.zip

3. Bearings under Combined Radial & Thrust Load.mp4

27:14

4.1 10.4a.zip

4.2 10.4b.zip

4. Bearing Selection - A.mp4

22:44

5. Bearing Selection - B.mp4

16:48

6. Lubrication.mp4

07:07

11. Design of Gears

1. Gears Types and Gear Nomenclature.mp4

17:20

2. Bevel Gears Nomenclature.mp4

11:47

3. Helical Gears Nomenclature.mp4

16:13

4. Gear Trains.mp4

19:23

5. Force Analysis - Spur Gears.mp4

23:32

6. Force Analysis - Bevel & Helical Gears.mp4

09:08

12. Theory of Belt Drives

1. Introduction to Belts.mp4

15:05

2. Belts Theory - A.mp4

12:46

3. Belts Theory - B.mp4

20:18

4. Belts Theory - C.mp4

09:06

13. Design Tool A - CAD (with SolidWorks)

1. Introduction to CAD.mp4

07:52

2. Indroduction to SolidWorks UI.mp4

06:06

3. 2D Sketch Tool.mp4

20:26

4. 3D CAD Modelling.mp4

23:38

5. CAD Practice - Modelling Table Parts.mp4

15:25

6. Assembly Creation - Table.mp4

15:55

7. Drawings Preparation.mp4

10:12

14. Design Tool B - Finite Element Analysis (with ANSYS)

1. Theory of Finite Element Analys.mp4

10:05

2. FEA Problem Solving Steps.mp4

02:58

3. Introduction to ANSYS UI.mp4

03:06

4. Stress Analysis in ANSYS.mp4

23:18

15. Final Words

1. Congratulations.mp4

00:39

Description

A complete course on Mechanical Design Engineering from Design Theory to Machine Elements Design and Design Tools

What You'll Learn?

You will learn basic theory behind the meaning of Design and Mechanical Design
You will learn the theory of Engineering Materials and how they behave in certain situations
You will learn the theory and process of conducting stress and strain analysis
You will learn theories behind mechanical for static loading
You will learn theories behind mechanical for dynamics or fatigue loading
You will learn how to dosign basic mechanical elements
You will learn how to analyze and design mechanical shafts
You will learn how to analyze and design permanent fasteners like screws and bolts
You will learn how to analyze and design rolling bearings
You will learn how to analyze and design different types of gears
You will learn the basics of Computer Aided Design using Solidworks
You will learn how to use the finite element analysis for your designs using ANSYS

Who is this for?

Mechanical Engineering students willing to learn the theory and practice of Mechanical Design.

Mechanical Engineers looking to refresh their theory behind mechanical design.

Anyone willing to learn how mechanical machine elements are designed.

What You Need to Know?

Basic knowledge about mechanics is recommended but not required.

Drive to learn.

Access to Solidworks Version 2018 or higher. (For final Section Only)

Access to ANSYS Version 2018 or higher. (For final Section Only)

Basic understanding of Calculus, Differential Equations and Linear Algebra

Basic understanding of high school level Physics, specially Mechanics

More details

Description
Our world is brimming with machinery, from toasters to smartphones, agricultural equipment to automobiles, and satellites.Â 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
Â Â Â Â Â Basics of Mechanical Design Engineering
Â Â Â Â Â Engineering Materials
Â Â Â Â Â Stress Analysis
Â Â Â Â Â Failure Prevention for Static Loading
Â Â Â Â Â Failure Prevention for Dynamic Loading
Part 2 Design of Machine Elements
Â Â Â Â Â Design of Rotating Shafts
Â Â Â Â Â Design of Non-Permanent Joints
Â Â Â Â Â Design of Permanant Joints
Â Â Â Â Â Design of Bearings
Â Â Â Â Â Design of Gears
Â Â Â Â Â Design of Belt Drives
Part 3 Design Tools
Â Â Â Â Computer Aided Design with SolidWorks
Â Â Â Â Finite Element Analysis with ANSYS
So, jump in and let's start learning
Who this course is for:
Mechanical Engineering students willing to learn the theory and practice of Mechanical Design.
Mechanical Engineers looking to refresh their theory behind mechanical design.
Anyone willing to learn how mechanical machine elements are designed.

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Mechanical Engineering

Umair Ahmad Khan

Instructor's Courses

I am a Mechanical Design Engineer currently pursuing Masters Degree in Design Engineering. The focus of my research is Design Optimization and Finite Element Analysis. I have been working as a Freelance CAD/CAE Engineer for 6+ years and have worked on several projects involving CAE.I have always wanted to imagine and create new things and I think that is the reason why I loved CAD so much when I was first introduced to it. I have been using CAD Packages such as SolidWorks, ANSYS, PTC Creo and more for a long time. Some of them I was taught academically but most of them I learned on my own. Because I believe if you really want to learn something, resources make themselves available to you. You just need to have a drive and will. Apart from that I love video games. And through CAD and video games, I have also been creating CGI and digital for sometimes now. If you have any question feel free to ask me. Whether here on Udemy or my EMAIL or twitter, wherever you like. Thanks

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