000			03332cam a2200277Ii 4500
020			_a9783030815769
020			_a3030815765
082	0	4	_a621.3815
245	0	0	_aReliability of organic compounds in microelectronics and optoelectronics : _bfrom physics-of-failure to physics-of-degradation / _cWillem Dirk van Driel, Maryam Yazdan Mehr, editors
264		1	_aCham : _bSpringer, _c[2022]
264		4	_c©2022 _aSwitzerland _bCham
300			_aviii, 550 pages. _billustrations (chiefly color) _e1 online resource :
500			_aIncludes index
505	0		_aIntroduction to reliability -- Introduction to failure analysis methodologies -- An overview of remaining life assessment methodologies in engineering materials -- Reliability and failure of microelectronic materials and components in harsh working conditions -- Reliability and failure of solar cell materials and systems in harsh working conditions -- Electromigration-induced failures in microelectronic components -- Corrosion and degradation of metals -- Creep failures in high temperature alloys -- An overview of failures in boilers and heat exchangers in power plants -- Fatigue-related failures -- Degradation and failure of polymers -- Virtual prototyping techniques for prediction material degradation -- Health monitoring, machine learning and digital twin.-Discussions and concluding remarks -- Index
520			_aThis book aims to provide a comprehensive reference into the critical subject of failure and degradation in organic materials, used in optoelectronics and microelectronics systems and devices. Readers in different industrial sectors, including microelectronics, automotive, lighting, oil/gas, and petrochemical will benefit from this book. Several case studies and examples are discussed, which readers will find useful to assess and mitigate similar failure cases. More importantly, this book presents methodologies and useful approaches in analyzing a failure and in relating a failure to the reliability of materials and systems. Presents methodologies for analysing the reliability, failure, and degradation of different organic materials, used in optoelectronics and microelectronics; Provides an overview of different failure mechanisms in different organic materials; Explains how to correlate product performance and reliability to materials degradation; Provides an overview of simulation techniques and methodologies to predict lifetime and reliability of engineering materials and components; Integrates several degradation causes in different materials (thermal, moisture, light radiation, mechanical damage, and more) into large-scale system solutions in several industrial domains (lighting, automotive, oil/gas, and transport and more); Includes case studies from different failure/degradation mechanisms in different industrial sectors
650		0	_aMicroelectronics
650		0	_aOptoelectronics
650		0	_aFunctional organic materials
650		0	_aFunctional organic materials
700	1		_aDriel, Willem Dirk van,
700	1		_aYazdan Mehr, Maryam,
856	4	0	_uhttps://rave.ohiolink.edu/ebooks/ebc2/9783030815769
856	4	0	_uhttps://link.springer.com/10.1007/978-3-030-81576-9
856	4	0	_uhttp://proxy.ohiolink.edu:9099/login?url=https://link.springer.com/10.1007/978-3-030-81576-9
942			_2lcc _cBK
999			_c10736 _d10736