05582nam 2200673 450 991082418820332120220103163348.0(CKB)2670000000617882(EBL)2056911(SSID)ssj0001548973(PQKBManifestationID)16154235(PQKBTitleCode)TC0001548973(PQKBWorkID)14802857(PQKB)10306304(Au-PeEL)EBL2056911(CaPaEBR)ebr11058676(CaONFJC)MIL788494(OCoLC)910159095(MiAaPQ)EBC2056911(EXLCZ)99267000000061788220150123h20152015 uy| 0engur|n|---|||||txtccrRobust design of microelectronics assemblies against mechanical shock, temperature and moisture /E-H Wong, Y.-W MaiBoston, MA :Elsevier,[2015]©20151 online resource (477 p.)Woodhead Publishing series in electronic and optical materials,2050-1501 ;number 81Description based upon print version of record.0-85709-911-6 1-84569-528-3 Includes bibliographical references and index.Front Cover; Related titles; Robust Design of Microelectronics Assemblies Against Mechanical Shock, Temperature and MoistureWoodhead Publishing Series i ...; Copyright; Contents; Woodhead Publishing Series in Electronic and Optical Materials; Foreword; Preface; 1 - Introduction; 1.1 Introduction to microelectronic packaging; 1.2 Introduction to robust design; 1.3 Organisation of the book; References; Part 1 - Advances in robust design against temperature-induced failures; 2 - Robust design of microelectronic assemblies against mismatched thermal expansion; 2.1 Introduction; 2.2 Fundamentals2.3 Comprehensive analysis of a bilayer structure2.4 Microelectronic assembly as a sandwich structure with a continuous bonding layer; 2.5 PCB assembly as a sandwich structure with a layer of solder joints; References; 2. Appendix: prior published works in thermoelasticity; 2. Nomenclature; 2. Mathematical symbols; 3 - Advances in creep-fatigue modelling of solder joints; 3.1 Introduction; 3.2 Life-prediction models for creep-fatigue; 3.3 The unified equation; 3.4 Self-validations and benchmarking; 3.5 Applications; ReferencesPart 2 - Advances in robust design against moisture-induced failures4 - Moisture properties and their characterisations; 4.1 Introduction; 4.2 Thermodynamics of water; 4.3 Sorption and its characterisation; 4.4 Diffusivity and its characterisation; 4.5 Hygroscopic swelling and its characterisation; References; 5 - Advances in diffusion and vapour pressure modelling; 5.1 The discontinuity of concentration; 5.2 The fractional saturation; 5.3 Diffusion under time-varying temperature and pressure; 5.4 Advances in vapour pressure modelling; References; Part 3 - Robust design against drop impact6 - The physics of failure of portable electronic devices in drop impact6.1 Product drop testing; 6.2 The physics of failure; References; 7 - Subsystem testing of solder joints against drop impact; 7.1 Board-level testing; 7.2 Component-level testing; References; 8 - Fatigue resistance of solder joints: strain-life representation; 8.1 Introduction; 8.2 Design of test specimens; 8.3 Fatigue resistance equations: materials; 8.4 Fatigue resistance equations: frequency; 8.5 Fatigue resistance equations: environment; References; 9 - Fatigue crack growth in solder joints at high strain rate9.1 Introduction9.2 Establishment of continuous crack growth tracking capability; 9.3 Crack propagation characteristics: board-level drop shock test; 9.4 Crack propagation characteristics: high-speed cyclic bending test; 9.5 Three-dimensional fracture mechanics modelling of the crack front; 9.6 Crack propagation in the solder joints of a mobile phone experiencing drop impact; References; 10 - Dynamic deformation of a printed circuit board in drop-shock; 10.1 Introduction; 10.2 Vibration of a test board in the JESD22-B111 drop-shock test10.3 Analytical solutions for a spring-mass system subjected to half-sine shockRobust Design of Microelectronics Assemblies Against Mechanical Shock, Temperature and Moisture discusses how the reliability of packaging components is a prime concern to electronics manufacturers. The text presents a thorough review of this important field of research, providing users with a practical guide that discusses theoretical aspects, experimental results, and modeling techniques. The authors use their extensive experience to produce detailed chapters covering temperature, moisture, and mechanical shock induced failure, adhesive interconnects, and viscoelasticity. Useful progrWoodhead Publishing series in electronic and optical materials ;no 81.MicroelectronicsDesignIndustrial designRobust controlMicroelectronicsDesign.Industrial design.Robust control.621.381046Wong E- H.1650605Mai Y.-W.MiAaPQMiAaPQMiAaPQBOOK9910824188203321Robust design of microelectronics assemblies against mechanical shock, temperature and moisture4000054UNINA