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010   $a1-283-37410-2
010   $a9786613374103
010   $a0-470-98011-7
010   $a0-470-98010-9
035   $a(CKB)3460000000003360
035   $a(EBL)675299
035   $a(OCoLC)742333249
035   $a(SSID)ssj0000482362
035   $a(PQKBManifestationID)11291761
035   $a(PQKBTitleCode)TC0000482362
035   $a(PQKBWorkID)10525936
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035   $a(MiAaPQ)EBC675299
035   $a(EXLCZ)993460000000003360
100   $a20130418d2011||||  u||            |
101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 10$aReliability Technology$b[electronic resource] $ePrinciples and Practice of Failure Prevention in Electronic Systems
210   $aChicester $cWiley$d2011
215   $a1 online resource (414 p.)
225 1 $aQuality and Reliability Engineering Series ;$vv.6
300   $aDescription based upon print version of record.
311   $a0-470-74966-0 
320   $aIncludes bibliographical references and index.
327   $aRELIABILITY TECHNOLOGY: PRINCIPLES AND PRACTICE OF FAILURE PREVENTION IN ELECTRONIC SYSTEMS; Contents; Foreword by Michael Pecht; Series Editor's Preface; Preface; About the Author; Acknowledgements; 1 The Origins and Evolution of Quality and Reliability; 1.1 Sixty Years of Evolving Electronic Equipment Technology; 1.2 Manufacturing Processes - From Manual Skills to Automation; 1.3 Soldering Systems; 1.4 Component Placement Machines; 1.5 Automatic Test Equipment; 1.6 Lean Manufacturing; 1.7 Outsourcing; 1.8 Electronic System Reliability - Folklore versus Reality; 1.9 The 'Bathtub' Curve
327   $a1.10 The Truth about Arrhenius1.11 The Demise of MIL-HDBK-217; 1.12 The Benefits of Commercial Off-The-Shelf (COTS) Products; 1.13 The MoD SMART Procurement Initiative; 1.14 Why do Items Fail?; 1.15 The Importance of Understanding Physics of Failure (PoF); Summary and Questions; References; 2 Product Lifecycle Management; 2.1 Overview; 2.2 Project Management; 2.3 Project Initiation; 2.4 Project Planning; 2.5 Project Execution; 2.6 Project Closure; 2.7 A Process Capability Maturity Model; 2.8 When and How to Define The Distribution Strategy
327   $a2.9 Transfer of Design to Manufacturing - The High-Risk Phase2.10 Outsourcing - Understanding and Minimising the Risks; 2.11 How Product Reliability is Increasingly Threatened in the Twenty-First Century; Summary and Questions; References; 3 The Physics of Failure; 3.1 Overview; 3.2 Background; 3.3 Potential Failure Mechanisms in Materials and Components; 3.4 Techniques for Failure Analysis of Components and Assemblies; 3.5 Transition from Tin-Lead to Lead-Free Soldering; 3.6 High-Temperature Electronics and Extreme-Temperature Electronics; 3.7 Some Illustrations of Failure Mechanisms
327   $aSummary and QuestionsReferences; 4 Heat Transfer - Theory and Practice; 4.1 Overview; 4.2 Conduction; 4.3 Convection; 4.4 Radiation; 4.5 Thermal Management; 4.6 Principles of Temperature Measurement; 4.7 Temperature Cycling and Thermal Shock; Summary and Questions; References; 5 Shock and Vibration - Theory and Practice; 5.1 Overview; 5.2 Sources of Shock Pulses in the Real Environment; 5.3 Response of Electronic Equipment to Shock Pulses; 5.4 Shock Testing; 5.5 Product Shock Fragility; 5.6 Shock and Vibration Isolation Techniques; 5.7 Sources of Vibration in the Real Environment
327   $a5.8 Response of Electronic Equipment to Vibration5.9 Vibration Testing; 5.10 Vibration-Test Fixtures; Summary and Questions; References; 6 Achieving Environmental-Test Realism; 6.1 Overview; 6.2 Environmental-Testing Objectives; 6.3 Environmental-Test Specifications and Standards; 6.4 Quality Standards; 6.5 The Role of the Test Technician; 6.6 Mechanical Testing; 6.7 Climatic Testing; 6.8 Chemical and Biological Testing; 6.9 Combined Environment Testing; 6.10 Electromagnetic Compatibility; 6.11 Avoiding Misinterpretation of Test Standards and Specifications; Summary and Questions; References
327   $a7 Essential Reliability Technology Disciplines in Design
330   $aA unique book that describes the practical processes necessary to achieve failure free equipment performance, for quality and reliability engineers, design, manufacturing process and environmental test engineers. This book studies the essential requirements for successful product life cycle management. It identifies key contributors to failure in product life cycle management and particular emphasis is placed upon the importance of thorough Manufacturing Process Capability reviews for both in-house and outsourced manufacturing strategies. The readers? attention is also drawn to the ma
410  0$aQuality and Reliability Engineering Series
606   $aElectronic apparatus and appliances - Reliability
606   $aElectronic apparatus and appliances --Reliability
606   $aSystem failures (Engineering) - Prevention
606   $aSystem failures (Engineering) --Prevention
606   $aElectronic apparatus and appliances$xReliability
606   $aSystem failures (Engineering)$xPrevention
606   $aElectrical & Computer Engineering$2HILCC
606   $aEngineering & Applied Sciences$2HILCC
606   $aElectrical Engineering$2HILCC
615  4$aElectronic apparatus and appliances - Reliability.
615  4$aElectronic apparatus and appliances --Reliability.
615  4$aSystem failures (Engineering) - Prevention.
615  4$aSystem failures (Engineering) --Prevention.
615  0$aElectronic apparatus and appliances$xReliability
615  0$aSystem failures (Engineering)$xPrevention
615  7$aElectrical & Computer Engineering
615  7$aEngineering & Applied Sciences
615  7$aElectrical Engineering
676   $a621.381
700   $aPascoe$b Norman$0943485
801  0$bAU-PeEL
801  1$bAU-PeEL
801  2$bAU-PeEL
906   $aBOOK
912   $a9910130866103321
996   $aReliability Technology$92129397
997   $aUNINA