Christopher Hendricks scite author profile

h i g h l i g h t sWe develop a failure modes, mechanisms, and effects analysis of Li-ion batteries. The FMMEA approach provides a detailed framework for Li-ion reliability assessment. We review the state of physics-based models for failure of Li-ion batteries. We identify critical failure mechanisms and highlight areas for model improvements. a b s t r a c tLithium-ion batteries are popular energy storage devices for a wide variety of applications. As batteries have transitioned from being used in portable electronics to being used in longer lifetime and more safety-critical applications, such as electric vehicles (EVs) and aircraft, the cost of failure has become more significant both in terms of liability as well as the cost of replacement. Failure modes, mechanisms, and effects analysis (FMMEA) provides a rigorous framework to define the ways in which lithium-ion batteries can fail, how failures can be detected, what processes cause the failures, and how to model failures for failure prediction. This enables a physics-of-failure (PoF) approach to battery life prediction that takes into account life cycle conditions, multiple failure mechanisms, and their effects on battery health and safety. This paper presents an FMMEA of battery failure and describes how this process enables improved battery failure mitigation control strategies.

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Lessons Learned from the 787 Dreamliner Issue on Lithium-Ion Battery Reliability

Williard

et al. 2013

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On 16 January 2013, all Boeing 787 Dreamliners were indefinitely grounded due to lithium-ion battery failures that had occurred in two planes. Subsequent investigations into the battery failures released through the National Transportation Safety Board (NTSB) factual report, the March 15th Boeing press conference in Japan, and the NTSB hearings in Washington D.C., never identified the root causes of the failures-a major concern for ensuring safety and meeting reliability expectations. This paper discusses the challenges to lithium-ion battery qualification, reliability assessment, and safety in light of the Boeing 787 battery failures. New assessment methods and control techniques that can improve battery reliability and safety in avionic systems are then presented.

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Cycle life testing and modeling of graphite/LiCoO2 cells under different state of charge ranges

Saxena

Hendricks

Pecht

2016

Journal of Power Sources

138

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