May 1, 2024
Updated July 11, 2025
15 minute read
Reliability engineering is a subfield of engineering that focuses on designing, evaluating, and maintaining systems so they can perform their designated function without failure. It's a critical discipline in many industries, including aerospace, automotive, healthcare, and manufacturing. Studying reliability engineering can give you the skills and knowledge you need to design and maintain systems that are safe, reliable, and cost-effective.
Why study reliability engineering?
There are many reasons why you might want to study reliability engineering. Some of the most common reasons include:
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Find a path to becoming a Reliability Engineering. Learn more at:
OpenCourser.com/topic/fga3f9/reliability
Reading list
We've selected 22 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
Reliability Engineering.
Provides a thorough and well-balanced overview of the fundamental aspects of reliability engineering. It covers foundational theory and real-world practice, making it an excellent resource for gaining a broad understanding of the topic. It is commonly used as a textbook in academic institutions for undergraduate and graduate students.
Provides a comprehensive overview of the theory, methods, and applications of reliability engineering. It covers various aspects such as design review, FMEA, reliability testing, and modeling. It valuable resource for gaining a deep understanding of the field and is suitable for graduate-level study and professionals.
With an emphasis on practical aspects, this book widely recognized textbook in reliability engineering. It offers a balanced mixture of reliability theory and applications, making it valuable for both students and practicing engineers. The updated editions incorporate the latest industry best practices.
This comprehensive textbook introduces the methods of reliability and maintainability engineering with a balance of theory and applications. It is suitable for upper-level undergraduate and graduate students, as well as professionals. The book includes numerous exercises and examples.
Concise and practical guide to reliability and risk analysis techniques. It covers a wide range of topics, including root cause analysis, reliability centered maintenance, and FMEA. It useful reference tool for both engineering students and practitioners.
Takes a practical approach to reliability engineering across the entire life cycle of a plant or system. It covers theory alongside design, operation, and maintenance, incorporating modern standards like ISO 55000. It's a valuable resource for engineers working in various industries.
While focused on Site Reliability Engineering (SRE), this book must-read for understanding contemporary reliability practices in large-scale systems. It covers essential SRE topics like SLOs, monitoring, and incident management, providing valuable insights for professionals in the tech industry and those interested in modern reliability approaches.
Accelerated testing crucial technique in reliability engineering. provides a deep dive into the statistical models and methods used for accelerated life testing, making it essential for those involved in designing and analyzing reliability tests.
Provides an easy-to-understand introduction to the key principles of reliability engineering. Written in clear language, it is suitable for those new to the field or seeking a foundational understanding of reliability concepts and projects.
As a companion to the "Site Reliability Engineering" book, this workbook provides practical implementation details for SRE principles. It offers exercises and deeper dives into topics introduced in the first book, making it useful for those looking to apply SRE concepts in practice.
This guide provides a practical approach to reliability engineering and risk analysis. It covers key concepts and techniques with a focus on real-world applications, making it a valuable resource for practitioners and students seeking to apply reliability principles.
Reliability-Centered Maintenance (RCM) widely used methodology for developing effective maintenance strategies. key text on RCM, explaining its principles and application. It's essential reading for those involved in maintenance and asset management.
Presents a comprehensive and systematic approach to reliability engineering, covering topics such as reliability modeling, data analysis, and risk assessment.
Offers a comprehensive overview of reliability and availability engineering, covering topics such as reliability modeling, data analysis, and risk assessment.
This handbook is specifically designed for individuals preparing for the ASQ Certified Reliability Engineer (CRE) exam. It covers the body of knowledge for the certification, making it a focused resource for professionals seeking to validate their expertise.
Is often recommended for its practical approach to applied reliability. It helps readers understand and apply reliability concepts to real-world problems, making it a useful resource for both students and practicing engineers.
Focuses on the practical applications of reliability and safety engineering in industrial settings. It covers various techniques and practices relevant to ensuring the reliability and safety of industrial systems, making it useful for professionals in manufacturing and process industries.
Offers a practical, hands-on approach to reliability engineering, with a focus on practical applications and case studies.
Reliability and maintenance are closely intertwined. This handbook provides comprehensive coverage of maintenance engineering, which is crucial for improving and maintaining system reliability. It serves as a valuable reference for maintenance and reliability professionals.
Provides insights into the historical development of reliability and maintainability engineering and explores its evolution over time.
While not solely focused on reliability, this book examines engineering failures through case histories. Understanding past errors is vital for preventing future failures and designing for reliability. It offers valuable lessons and a broader perspective on the importance of robust design.
For more information about how these books relate to this course, visit:
OpenCourser.com/topic/fga3f9/reliability
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