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Fatigue Failure in Different Fields of Engineering

Approx. 23 hours to complete

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Course Summary

This course explores the concept of fatigue failure in various fields of engineering, including aerospace, civil, mechanical, and materials engineering. Students will learn about the causes of fatigue failure and how to prevent it through different design strategies and materials selection.

Key Learning Points

Understand the concept of fatigue failure and its impact on different engineering fields
Learn the causes and mechanisms of fatigue failure
Explore different design strategies and materials selection to prevent fatigue failure

Job Positions & Salaries of people who have taken this course might have

- USA: $70,000 - $100,000
- India: ₹400,000 - ₹1,000,000
- Spain: €25,000 - €50,000
- USA: $70,000 - $100,000
- India: ₹400,000 - ₹1,000,000
- Spain: €25,000 - €50,000
- USA: $80,000 - $130,000
- India: ₹600,000 - ₹2,000,000
- Spain: €30,000 - €60,000
- USA: $70,000 - $100,000
- India: ₹400,000 - ₹1,000,000
- Spain: €25,000 - €50,000
- USA: $80,000 - $130,000
- India: ₹600,000 - ₹2,000,000
- Spain: €30,000 - €60,000
- USA: $70,000 - $110,000
- India: ₹500,000 - ₹1,500,000
- Spain: €25,000 - €50,000

Learning Outcomes

Ability to identify and analyze fatigue failure in mechanical, civil, aerospace, and materials engineering
Knowledge of different design strategies and materials selection to prevent fatigue failure
Understanding of the causes and mechanisms of fatigue failure

Prerequisites or good to have knowledge before taking this course

Basic knowledge of engineering principles and materials science
Familiarity with mechanical design and testing

Course Difficulty Level

Intermediate

Course Format

Online
Self-paced
Video lectures

Similar Courses

Introduction to Materials Science and Engineering
Structural Materials: Selection and Properties
Aerospace Materials and Manufacturing

Related Education Paths

Notable People in This Field

Dr. Fatigue
Dr. Materials

Related Books

Description

In recent years, owing to global competition and greater need of customers for safety, durability, and reliability of products, there has been a considerable tendency to improve quality in various industries. In this regard, fatigue is one of the major reasons of industrial failures, which is sometimes caused by lack of awareness or attention by the designer and other parts of industry like R&D. The aim of this course is to introduce MSc graduates, Ph.D. students, and engineers working in industry with a short review of the basics of fatigue in different fields of engineering. To this end, it is attempted to express the general concept of the phenomenon using unconscious reactions of the human body to daily works and then to illustrate other aspects through simple examples. The topics cover common challenges that engineers should consider to study the causes of component failure.

The contents of this course include 12 years of my activities and experience in academic and industry. In summary, I recommend that the following steps be taken to understand these lessons fully. • Take the online class; • Do a testing exam at the end of each week to make sure you have a good understanding of the content; • Do your homework and submit it for evaluation; • After finishing the online course, you will enter the final exam.

Outline

Introduction
Intro video
Introduction
Different types of failure and importance of fatigue failure
Report of some huge losses of fatigue failures
Macro aspect of material fatigue by human body language
Stages of fatigue failure from view point of medical science
Various ways to delay the fatigue feeling
Introduction to Fatigue Failures in Different Fields of Engineering
Different types of failure and importance of fatigue failure
Some huge losses of fatigue failures in the world
Macro aspect of material fatigue by human body language
Different stages of fatigue failures
Various methods for delaying time of fatigue failure
Test #1

Real examples of fatigue failure in various industries
Real examples of fatigue failure in various industries, including Mechanical engineering
Automotive engineering
Civil engineering
Computer, Electrical, and Textile engineering
Aerospace and Transportation engineering
Petrochemical engineering
Sea, Energy, and Material engineering
Biomedical engineering
Real examples in various fields of engineering
Automotive engineering
Civil engineering
Computer, Electrical, and Textile engineering
Aerospace and Transportation engineering
Petrochemical engineering
Sea, Energy, and Material engineering
Biomedical engineering
Test #2

Fatigue design criteria and design flowchart
Fatigue design flowchart
Design of steering knuckle as a super-critical component of automotive (steps 1-5)
Design of steering knuckle as a super-critical component of automotive (steps 6-10)
Strategies in fatigue design
Fatigue design criteria
Crack inspection and sizing in service
Fatigue testing machine
Fatigue test specimen preparation and important points in fatigue experiment
Fatigue design flowchart
Design of steering knuckle as a super-critical component of automotive
Strategies in fatigue design
Fatigue design criteria
Crack inspection and sizing in service
Fatigue testing machine
Fatigue test specimen preparation and important points in fatigue experiment
Test #3
Test #4

Classification of fatigue loads and life estimation
Different types of fatigue loads
Multiaxial stress-strain field
Features of S-N diagram and high-cycle fatigue life approach
Effect of mean stress on HCF life
Linear damage accumulation rule
Various cycle counting techniques and tutorial of J-rain software
Different types of fatigue loads
Multiaxial stress-strain field
Features of S-N diagram and high-cycle fatigue life approach
Effect of mean stress on HCF life
Linear damage accumulation rule
Various cycle counting techniques and tutorial of J-rain software
Test #5

Solve fatigue problems using the formula and FE simulation
Solve high-cycle fatigue problems using formula (Part 1)
Solve high-cycle fatigue problems using formula (Part 2)
Tutorial of ANSYS Workbench (geometric modeling)
Tutorial of ANSYS Workbench (finite element simulation)
Tutorial of ANSYS Workbench (static analysis)
Tutorial of ANSYS Workbench (fatigue analysis)
Effect of mean stress on fatigue life prediction using FEM
Effect of loading ratio on fatigue life estimation
Define new material in ANSYS WORKBENCH software
Solve high-cycle fatigue problems using formula (Part 1)
Solve high-cycle fatigue problems using formula (Part 2)
Downloading and installation of ANSYS WORKBENCH and J-Rain Software
Solve high-cycle fatigue problems by utilizing finite element simulation
Effect of mean stress on fatigue life prediction using FEM
Effect of loading ratio on fatigue life estimation

Improvement of fatigue properties of metallic materials
Improvement of fatigue properties of metallic materials (Mechanical methods)
Some new scientific and practical findings
Effects of SP process on grain size and residual stress
Effects of SP process on fatigue life
Thermal operating and Plating
Machining
Final video
Improvement of fatigue properties of metallic materials (Mechanical methods)
Some new scientific and practical findings
Effects of SP process on grain size and residual stress
Effects of SP process on fatigue life
Thermal operating and Plating
Machining
Presentation closing program
Closing course
Answers to the Self-check quiz
References
Test #6
Final exam
Final Quiz
Self-Check quiz

Summary of User Reviews

Learn about fatigue failure in various fields of engineering with this course. Students have praised the comprehensive content and practical applications of the course. However, some have mentioned that the course can be challenging and overwhelming.

Key Aspect Users Liked About This Course

Comprehensive content and practical applications

Pros from User Reviews

In-depth coverage of fatigue failure in different fields of engineering
Real-world examples and case studies for practical application
Engaging and knowledgeable instructors
Interactive quizzes and assignments to reinforce learning
Flexible schedule allows for self-paced learning

Cons from User Reviews

Can be challenging and overwhelming for those with limited engineering background
Some technical jargon may be difficult to understand
Limited interaction with instructors and fellow students
Course material may not be updated regularly
Lack of hands-on practice or laboratory exercises

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Fatigue Failure in Different Fields of Engineering

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