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Kazem Reza Kashyzadeh
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...
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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.
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Good to know

Know what's good
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Taught by Kazem Reza Kashyzadeh, a recognized expert in fatigue engineering
Introduces common challenges that engineers face in studying the causes of component failure
Develops a solid understanding of the basics of fatigue
Explores fatigue from various engineering perspectives
Provides practical examples for a better understanding of fatigue principles
Covers up-to-date concepts and practices in fatigue engineering

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Reviews summary

Informative course on fatigue phenomena

This course provides a highly informative overview of fatigue phenomena and its applications across engineering disciplines. While the course materials are primarily geared toward beginners, learners can expect to gain a solid foundation in the subject matter. The instructor effectively leverages their industry experience to present the content in a practical and engaging manner.
Emphasizes real-world applications in various engineering fields.
"It helps you understand fatigue phenomenon in general and make some calculations for fatigue life and design for fatigue."
Provides a solid foundation in fatigue phenomena.
"The course by itself is very informative."
"This course allowed me to consolidate some of my previous knowledge about fatigue research field."
Instructor draws on extensive industry experience.
"great"
"The contents of this course include 12 years of my activities and experience in academic and industry."
Background music may be distracting for some learners.
"The endlessly looped background music is just as annoying."
Instructor's English pronunciation can be difficult to understand.
"Poor quality of english, which is very difficult to perceive by ear."
"It is clear that the lecturer is not a native speaker."
Quiz questions are often vague or require memorization.
"Some questions in the assignments were vague."
"Other questions are absolutely useless and require literally memorizing lectures."
Final exam requires third-party software that is no longer available.
"The course has one (and only one) undeniable positive quality: the given overview introduction to fatigue is extremely useful and allows to structure the understanding of this topic."
"I had to solve problems with third-party software."

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 Fatigue Failure in Different Fields of Engineering with these activities:
Review previous engineering studies
The course requires a background in engineering
Show steps
  • Go over class notes and textbooks
  • Review key concepts
  • Solve sample problems
Review the basics of fatigue
Refreshes the basic concept of the fatigue in various industries.
Browse courses on Fatigue
Show steps
  • Read the course description
  • Take the online class
  • Do a testing exam at the end of each week
Watch tutorials on fatigue analysis
Watch video tutorials to learn more about fatigue analysis.
Show steps
  • Find tutorials online
  • Watch the tutorials
  • Take notes
Eight other activities
Expand to see all activities and additional details
Show all 11 activities
Complete online tutorials on fatigue analysis
Can help students to better understand the concepts introduced in the course
Show steps
  • Search for tutorials
  • Follow tutorials
  • Complete exercises
Discuss fatigue with other students
Discuss fatigue with other students to gain different perspectives and insights.
Browse courses on Fatigue
Show steps
  • Find a study partner or group
  • Meet regularly to discuss the material
  • Share notes and resources
Solve practice problems on fatigue design
Can help students to apply the concepts taught in the course
Browse courses on Fatigue Failure
Show steps
  • Find practice problems
  • Attempt problems independently
  • Review solutions
Solve fatigue analysis problems
Practice solving fatigue analysis problems to improve understanding of the concepts.
Show steps
  • Find practice problems online
  • Solve the problems
  • Check your answers
Design a fatigue testing experiment
Allows students to apply their knowledge to a real-world problem
Browse courses on Experimental Design
Show steps
  • Define project specifications
  • Design experimental setup
  • Conduct fatigue testing
  • Analyze data
  • Write a report
Write a blog post about fatigue
Write a blog post to share your knowledge and understanding of fatigue.
Browse courses on Fatigue
Show steps
  • Choose a topic
  • Write the blog post
  • Publish the blog post
Develop a fatigue management plan
Develop a fatigue management plan to help manage and reduce fatigue in the workplace.
Browse courses on Fatigue Management
Show steps
  • Identify the hazards
  • Assess the risks
  • Develop control measures
  • Implement the control measures
  • Monitor and review the control measures
Contribute to an open source fatigue analysis project
Contribute to an open source fatigue analysis project to gain practical experience and help the community.
Show steps
  • Find an open source fatigue analysis project
  • Identify a way to contribute
  • Make a contribution

Career center

Learners who complete Fatigue Failure in Different Fields of Engineering will develop knowledge and skills that may be useful to these careers:
Aerospace Engineer
Aerospace Engineers are responsible for designing, developing, and testing aircraft, spacecraft, and other aerospace vehicles. Fatigue failure can occur in aerospace components due to factors such as vibration, temperature changes, and aerodynamic forces. This course provides insights into understanding fatigue failure and designing components to withstand these conditions, enhancing safety and reliability in aerospace engineering.
Mechanical Engineer
Mechanical Engineers design, analyze, and manufacture mechanical components and systems. Fatigue failure is a common concern in mechanical components subjected to repetitive loading and vibrations. This course provides a thorough understanding of fatigue analysis and design, enabling engineers to assess and prevent fatigue failures, ensuring product reliability and safety in various mechanical applications.
Reliability Engineer
Reliability Engineers analyze and improve the reliability of systems and components. Fatigue failure is a major contributor to system failures in various industries. This course provides a comprehensive understanding of fatigue analysis and modeling, enabling reliability engineers to assess fatigue risks, develop mitigation strategies, and enhance system reliability, ensuring optimal performance and minimizing downtime.
Research Scientist
Research Scientists conduct research and development in various scientific fields. Fatigue failure is a common research topic in materials science, engineering mechanics, and other disciplines. This course provides a solid foundation in fatigue analysis and experimental techniques, enabling research scientists to design and conduct fatigue experiments, analyze data, and contribute to the advancement of knowledge in fatigue behavior.
Automotive Engineer
Automotive Engineers are involved in the design, development, testing, and manufacturing of automobiles. Fatigue failure is a significant concern in automotive components, including engines, transmissions, and suspension systems. This course provides a foundation in fatigue analysis, enabling engineers to understand and prevent fatigue failures, improving vehicle durability and performance.
Nuclear Engineer
Nuclear Engineers design, operate, and maintain nuclear power plants and other nuclear facilities. Fatigue failure is a significant concern in nuclear components due to the harsh operating conditions and radiation exposure. This course provides insights into fatigue behavior of nuclear materials and components, helping engineers understand and predict fatigue life, assess structural integrity, and ensure safe and reliable operation of nuclear systems.
Structural Engineer
Structural Engineers design and analyze structures such as buildings, bridges, and offshore platforms. Fatigue failure can occur in structural components due to repeated loading and environmental factors. This course provides a comprehensive understanding of fatigue analysis and design of structures, enabling structural engineers to assess and mitigate fatigue risks, ensure structural integrity, and enhance the safety and durability of built environments.
Biomedical Engineer
Biomedical Engineers apply engineering principles to medical devices and systems. Fatigue failure can occur in medical implants and devices due to repetitive loading and wear. This course offers knowledge in fatigue behavior of biomaterials, assisting engineers in designing devices that can withstand these conditions, ensuring patient safety and implant longevity.
Metallurgical Engineer
Metallurgical Engineers focus on the properties and behavior of metals used in different industries. Fatigue failure is a significant concern in metal structures and components. This course provides a solid foundation in fatigue behavior of metals, allowing engineers to understand and predict fatigue life, optimize alloy design, and improve the performance of metallic components.
Naval Architect
Naval Architects design, build, and maintain ships and other marine vessels. Fatigue failure is a critical consideration in marine structures due to constant exposure to waves, wind, and corrosive environments. This course offers knowledge in fatigue analysis and design of marine structures, enabling naval architects to assess and mitigate fatigue risks, ensuring vessel safety and integrity in harsh marine conditions.
Civil Engineer
Civil Engineers design, construct, and maintain infrastructure systems such as bridges, buildings, and roads. Fatigue failure can affect structural components due to repeated loading from traffic, wind, and environmental factors. This course provides a foundation in fatigue analysis and design, enabling engineers to assess and mitigate fatigue risks in civil engineering projects, enhancing public safety and infrastructure durability.
Test Engineer
Test Engineers conduct experiments and tests to assess the performance and reliability of products and systems. Fatigue testing is essential to evaluate the fatigue life of components and materials. This course offers insights into fatigue testing methods and data analysis, enabling test engineers to design and conduct fatigue tests, interpret results, and contribute to product development and quality assurance.
Materials Engineer
Materials Engineers develop and test different types of materials used in engineering applications. Fatigue failure is a crucial consideration for materials selection and design. This course offers insights into fatigue behavior of materials, helping engineers understand and predict fatigue life, optimize material selection, and enhance product performance and reliability.
Quality Control Engineer
Quality Control Engineers ensure the quality of products and processes in various industries. Fatigue failure can lead to product failures and safety concerns. This course offers knowledge in fatigue analysis and testing, enabling quality control engineers to understand and assess fatigue risks, implement quality control measures, and improve product reliability.
Tribologist
Tribologists study friction, wear, and lubrication in mechanical systems. Fatigue failure can occur due to tribological factors such as contact stresses and fretting wear. This course provides a foundation in fatigue analysis and tribology, enabling tribologists to understand and predict fatigue behavior in tribological systems, design for improved wear resistance, and enhance the reliability of mechanical components.

Reading list

We've selected seven 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 Fatigue Failure in Different Fields of Engineering.
This classic textbook comprehensive guide to machine component design, including fatigue analysis. It good reference for engineers who need to understand the basics of fatigue design.
Provides a comprehensive overview of fatigue of materials, including the mechanisms of fatigue failure and methods for fatigue analysis. It good reference for engineers who need to understand the fundamentals of fatigue.
Provides a comprehensive overview of fatigue and fracture of engineering materials and structures. It good reference for engineers who need to understand the mechanisms of fatigue and fracture and methods for fatigue analysis.
Provides a comprehensive overview of fatigue of structures and materials. It good reference for engineers who need to understand the fatigue behavior of structures and materials and methods for fatigue analysis.
Provides a comprehensive overview of fatigue of welded structures. It good reference for engineers who need to understand the fatigue behavior of welded structures and methods for fatigue analysis.
Provides a comprehensive overview of fatigue analysis of engineering materials. It good reference for engineers who need to understand the methods for fatigue analysis.
Provides a comprehensive overview of fatigue of materials. It good reference for engineers who need to understand the fundamentals of fatigue.

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