Description
Applied Reliability for Engineers
Author: Dhillon B.S.
Language: EnglishSubjects for Applied Reliability for Engineers:
Keywords
System Average Interruption Frequency Index; Fault tree analysis; System Average Interruption Duration Index; Engineering systems; Constant Failure Rate; Applied reliability; Laplace Transforms; Markov method; System Steady State Availability; Steady State Availability; System State Space Diagram; State Space Diagram; Robot Reliability; Time Dependent Failure Rate; Software Reliability Models; Fault Event; Power System Reliability; Software Reliability; Fault Tree; Box Denote System States; Cumulative Distribution Function; Unit Constant Failure Rate; Bathtub Hazard Rate Curve; Power Generator Unit; Robot Problems; Internet Server System; Top Fault Event; Robot Failure; Gate Output Fault Event
· 15.6x23.4 cm · Hardback
Description
/li>Contents
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Engineering systems and products are an important element of the world economy and each year billions of dollars are spent to develop, manufacture, operate, and maintain systems and products around the globe. Because of this, global competition is requiring reliability professionals to work closely with other departments involved in engineering development during the product design and manufacturing phase.
Applied Reliability for Engineers is an attempt to meet the need for a single volume that addresses a wide range of applied reliability topics. The material is treated in such a manner that the reader will require no previous knowledge to understand the text. The sources of most of the information presented are given in a reference section at the end of each chapter. At appropriate places, the book contains examples along with their solutions. At the end of each chapter there are numerous problems to test reader comprehension. This volume is thus suitable for use as a textbook as well as for reference.
Applied Reliability for Engineers is useful to design professionals, system engineers, reliability specialists, graduate and senior undergraduate students, researchers and instructors of reliability engineering, and engineers-at-large.
Chapter 1 Introduction
Chapter 2 Basic Mathematical Concepts
Chapter 3 Reliability Basics
Chapter 4 Reliability Evaluation Methods
Chapter 5 Robot Reliability
Chapter 6 Computer and Internet Reliability
Chapter 7 Transportation Systems Failures and Reliability Modeling
Chapter 8 Power System Reliability
Chapter 9 Medical Equipment Reliability
Chapter 10 Mining Equipment Reliability
Chapter 11 Oil and Gas Industry Equipment Reliability
Index
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