Georgia Tech - Machine Design Part I

4.4 /5

(7 Ratings)

Offered byCoursera
Public/Government Institute

Machine Design Part I
at
Coursera
Overview

Duration	31 hours
Total fee	Free
Mode of learning	Online
Difficulty level	Intermediate
Official Website	Explore Free Course
Credential	Certificate

Machine Design Part I

Table of content

Overview
Highlights
Course Details
Curriculum
Student Reviews

Machine Design Part I
at
Coursera
Highlights

Shareable Certificate Earn a Certificate upon completion
100% online Start instantly and learn at your own schedule.
Flexible deadlines Reset deadlines in accordance to your schedule.
Intermediate Level
Approx. 31 hours to complete
English Subtitles: Arabic, French, Portuguese (European), Italian, Vietnamese, German, Russian, English, Spanish

Machine Design Part I
at
Coursera
Course details

Skills you will learn

Software Testing

More about this course

?Machine Design Part I? is the first course in an in-depth three course series of ?Machine Design.? The ?Machine Design? Coursera series covers fundamental mechanical design topics, such as static and fatigue failure theories, the analysis of shafts, fasteners, and gears, and the design of mechanical systems such as gearboxes. Throughout this series of courses we will examine a number of exciting design case studies, including the material selection of a total hip implant, the design and testing of the wing on the 777 aircraft, and the impact of dynamic loads on the design of an bolted pressure vessel.
In this first course, you will learn robust analysis techniques to predict and validate design performance and life. We will start by reviewing critical material properties in design, such as stress, strength, and the coefficient of thermal expansion. We then transition into static failure theories such as von Mises theory, which can be utilized to prevent failure in static loading applications such as the beams in bridges. Finally, we will learn fatigue failure criteria for designs with dynamic loads, such as the input shaft in the transmission of a car.

Machine Design Part I
at
Coursera
Curriculum

Material Properties in Design

Module 1: Course Overview

Module 2: How to Succeed in this Course

Module 3: Strength

Module 4: Modulus of Elasticity - Introduction

Module 5: Modulus of Elastricity - Applications

Module 6: Ashby Plots

Module 7: Material Selection in Hip Implant

Module 8: Common Metals in Design

Module 9: Metal Designations and Processing

Module 10: Temperature Effects and Creep

Module 11: CTE mismatch

Syllabus

Consent Form

Total Hip Replacement Surgical Process:

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Complete prior to Module 4 - Modulus of Elasticity

Material Properties in Design

Static Failure Theories - Part I

Module 12: Review of Stress, Strength, and Factor of Safety

Module 13: Factor of Safety Example

Module 14: Axial and Torsional Stress Review

Module 15: Axial, and Torsional Stress Example

Module 16: Bending Stress Review

Module 17: Bending Stress Example

Module 18: Transverse Shear Review

Module 19: Transverse Shear Example

Tip for Units 2 and 3: Equation Sheet

Example Problem Module 12 : Factor of Safety?

Solution Module 13: Factor of Safety

Example Problem Module 14: Axial and Torsional Stress

Solution Module 15: Axial and Torsional Stress

Example Problem Module 16: Bending Stress

Solution Module 17: Bending Stress

Example Problem Module 18: Transverse Shear

Solution Module 19: Tranverse Shear

Earn a Georgia Tech Certificate/Badge/CEUs

Pre-Quiz: Static Loading

Static Failure Theories - Part II

Module 20: Ductile to Brittle Transition Temperature

Module 21: Stress Concentration Factors

Module 22: Static Failure Theories

Module 23: Distortion Energy Theory (von Mises Theory)

Module 24: Simple Example Distortion Energy Theory

Module 25: Complex Example Distortion Energy Theory

Module 26: Case Study - Static Load Analysis

Module 27: Brittle Coulomb Mohr Theory

Module 28: Brittle Coulomb Mohr Theory Example

Worksheet 2: Stress Concentration Factor Practice Problems

Worksheet 2 Solution

Example Problem Module 24

Solution Module 25: Complex Example Distortion Energy Theory

Worksheet 3: Practice Problems: Distortion Energy Theory

Worksheet 3 Solution

Example Problem Module 27 Coulomb Mohr Theory

Solution Module 28: Brittle Coulomb Mohr Theory

Worksheet 4: Practice Problems: Coulomb Mohr Theory

Worksheet 4 Solution

Tips for preparing for Quiz 2

Quiz 2 Solution

Static Failure

Fatigue Failure - Part I

Module 29: Introduction to Fatigue Failure

Module 30: Fatigue and the SN Curve

Module 31: Approximating the SN Curve

Module 32: Estimating the Endurance Limit

Module 33: Estimating the Endurance Limit - Example Problem

Module 34: Fatigue Stress Concentration Factors Part I

Module 35: Fatigue Stress Concentration Factors Part II

Module 36: Fatigue Fully Reversed Loading Example

Worksheet 5: SN Curve Practice Problem?

Worksheet 5 Solution

Example Problem Module 32: Estimating Endurance Limit

Solution Module 33: Estimating the Endurance Limit

Worksheet 6: Endurance Limit? Practice Problem

Worksheet 6 Solution

Worksheet 7: Fully Reversed Loading in Fatigue Practice Problems

Worksheet 7 Solution

Tips for preparing for Quiz 3

Quiz 3 Solution

Fully Reversed Loading in Fatigue

Fatigue Failure - Part II

Module 37: Fatigue Case Study - Aloha Airlines Flight 243 Failure

Module 38: Fatigue Fluctuating Stress

Module 39: Fatigue Goodman Diagram

Module 40: Fatigue Goodman Diagram Example

Module 41: Fatigue Goodman Diagram Example (Life)

Module 42: Randomly Varying Stresses and Miner's Rule

Module 43: Randomly Varying Stresses and Miner's Rule Example 1

Module 44: Randomly Varying Stresses and Miner's Rule Example 2

Example Problem Module 39

Solution Module 40

Worksheet 8: Fluctuating Loading in Fatigue

Worksheet 8 Solution

Example Problem Module 42

Solution: Example Problem Module 43

Worksheet 9: Miner's Rule

Worksheet 9 Solution

Quiz 4 Solution

Quiz 5 Solution

Fluctuating Fatigue and Miner?s Rule

Machine Design Part 1: Comprehensive Exam

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Machine Design Part I
at
Coursera
Students Ratings & Reviews

4.4/5

7 Ratings

4-5
3
3-4
4

Aryan Chandulal Jain

Machine Design Part I

Offered by Coursera

Learning Experience: Course basically foacused on the machine design basics cocepts & topic.

Faculty: The faculty was teaching us like we sit in front of them live. They provided video lecture & quizes in the course for valuation

Reviewed on 25 Dec 2022Read More

Vaibhav Jain

Machine Design Part I

Offered by Coursera

Learning Experience: Various effects on elements due to load applied and also their various design properties

Faculty: Faculty were highly qualified Curriculum was relevant and comprehensive

Course Support: No career support provided

Reviewed on 4 Jun 2022Read More

Shaikh Mohd Saud Hafiz Sohrab

Machine Design Part I

Offered by Coursera

Other: It was wonderful experience. learned different aspects of Machine Design.

Reviewed on 13 Jun 2021Read More

CHAKRAHARI CHAITANYA RAJU

Machine Design Part I

Offered by Coursera

Other: I learned a lot for upgrading my skills and knowledge.It is so useful for me.From my personalize it helps to make me a advance step for my skills.

Reviewed on 2 Apr 2021Read More

View All 4 Reviews