Reliability Physics and Engineering

This book provides critically important information for designing and building reliable cost-effective products. It includes numerous example problems with solutions.

"Reliability Physics and Engineering" provides critically important information for designing and building reliable cost-effective products. The textbook contains numerous example problems with solutions. Included at the end of each chapter are exercise problems and answers. "Reliability Physics and Engineering" is a useful resource for students, engineers, and materials scientists.

Introduction. - Materials and Device Degradation. - From Material/Device Degradation to Time-To-Failure. - Time-To-Failure Modeling. - Gaussian Statistics An Overview. - Time-To-Failure Statistics. - Failure Rate Modeling. - Accelerated Degradation. - Acceleration Factor Modeling. - Ramp-To-Failure Testing. - Time-To-Failure Models for Selected Failure Mechanisms in Integrated Circuits Breakdown (TDDB). - Time-To-Failure Models for Selected Failure Mechanisms In Mechanical Engineering. - Conversion of Dynamical Stresses Into Effective Static Values. - Increasing the Reliability of Device/Product Designs. - Screening. - Heat Generation and Dissipation. - Sampling Plans and Confidence Intervals. - Appendix A: Useful Conversion Factors. - Appendix B: Useful Physical Constants. - Appendix C: Useful Rough Rules-Of-Thumb. - Appendix D: Useful Mathematical Expressions. - Appendix E: Useful Differentials and Definite Integrals. - Appendix F: Free-Energy. - Appendix G: t(1- /2, ) Distribution Values. - Appendix H: 2(P, ) Distribution Values. - Index.