Gain insight into the basics of reliability engineering. Master the fundamentals for CRE or CMRP certification.
Last updated 10/2022
MP4 | Video: h264, 1280×720 | Audio: AAC, 44.1 KHz
Language: English | Size: 1.21 GB | Duration: 2h 40m
What you’ll learn
Basic definitions and principles of reliability theory
Estimation of Mean Time Between Failures (MTBF) and Mean Time to Failure (MTTF)
Understanding various types of censored data
Three phases in the product life: Infant mortality, useful life, and wear out
An overview of reliability tests such as ALT, HALT, HASS, ESS and Burn-in
Reliability Block Diagrams (RBDs) and three types of redundancies to improve the system’s reliability.
Calculate the Reliability in the constant failure zone using limited mathematical complexities
Requirements
None
Description
Fundamentals of Reliability Engineering training introduces the fundamentals of reliability theory and practice. The course will give students an overview of how to apply reliability engineering principles to design systems and processes.Reliability is the ability of a system or component to perform its intended function under specified conditions for an extended period without failure. A reliable product has a high probability of performing as expected over time. The reliability of a product is directly related to the quality of the product. For that reason, reliability is also called "quality over time."This course is designed as the first step for students of reliability engineering and persons taking the CRE exam. This course assumes that you do not have any prior knowledge of reliability engineering. This training will provide the knowledge and skills necessary to understand the basics of reliability engineering and its application to systems development.The course consists of video lectures, readings, and quizzes that help build upon each other so that by the end of the course, you have gained a firm grasp of the topics covered.Topics Covered:Section 1. Basic Definitions: We will start this course by understanding the definitions of Quality and Reliability. In this you will also understand why things fail and what are the consequences of failures.Section 2. Basic Measurements: In this section, you will understand the basic reliability measurements such as the Mean Time to Failure (MTTR) for nonrepairable products and the Mean Time Between Failures (MTBF) for repairable products. In addition, you will learn to calculate the availability and the Mean Time to Repair (MTTR).Section 3. Censored Data: In real life, the reliability data is not complete. In this section, you will understand various types of censored data and how to deal with them.Section 4. Failure Patterns: In this section, you will learn the Bathtub Curve in Reliability Engineering. You will understand three phases in the product life: Infant mortality, useful life, and wear out. You will learn to calculate the Hazard Function.Section 5. Improving Reliability: This section will cover various Reliability tests such as ALT, HALT, HASS, ESS and Burn-in.Section 6. Reliability Block Diagram: In this section, you will learn to calculate the system reliability based on the reliability of individual components. You will also learn about three types of redundancies to improve the system’s reliability.Section 7. Exponential Distribution: Even though the intent of this course was to teach Reliability without using complex mathematical and statistical formulas. In this section, you will learn to calculate the Reliability in the constant failure zone using the limited mathematical complexities.
Overview
Section 1: 1 Definitions
Lecture 1 Course Introduction
Lecture 2 1a Definition of Quality and Reliability
Lecture 3 1b Difference between Quality and Reliability
Lecture 4 1c Why do Things Fail?
Lecture 5 1d Consequences of Failures
Section 2: 2 Basic Measurements of Reliability
Lecture 6 2a Repairable and Nonrepairable
Lecture 7 2b Mean Time to Failure (MTTF)
Lecture 8 2c Mean Time Between Failures (MTBF)
Lecture 9 2d MTTR and Availability
Section 3: 3 Censored Data
Lecture 10 3a Types of Censored Data
Lecture 11 3b Types 1 and 2 Censored Data
Lecture 12 3c MTTF for Censored Data
Lecture 13 3d Minitab MTTF for Censored Data
Section 4: 4 Failure Patterns
Lecture 14 4a Three Failure Patterns
Lecture 15 4b The Bathtub Curve
Lecture 16 4c Hazard Function
Lecture 17 4d The Bathtub Curve Revisited
Section 5: 5 Improving Reliability
Lecture 18 5a Reliability Tests
Lecture 19 5b Accelerated Life Testing (ALT)
Lecture 20 5c Highly Accelerated Life Testing (HALT)
Lecture 21 5d Highly Accelerated Stress Screening (HASS)
Lecture 22 5e Environmental Stress Screening (ESS) and Burn-in
Section 6: 6 Reliability Block Diagrams (RBD)
Lecture 23 6a RBD Introduction
Lecture 24 6b Serial and Parallel Connections
Lecture 25 6c System Reliability – Two Examples
Lecture 26 6d Redundancy
Section 7: 7 Exponential Distribution
Lecture 27 A High Level Overview of Weibull Distribution
Lecture 28 Exponential Distribution – A High Level Overview
Lecture 29 Why Exponential Distribution for Constant Failure?
Lecture 30 7d Examples of Exponential Distribution – Part 1
Lecture 31 7e Course Conclusion + An Example of Exponential Distribution – Part 2
Section 8: 8 Resources
Lecture 32 Download Course Slides
Section 9: 9. BONUS
Lecture 33 BONUS LECTURE
Reliability Engineers,Quality Managers,Quality Engineers,Design Engineers,Manufacturing Engineers,Industrial Engineers,People apperaing in the CRE or other reliability exams
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