Accelerated fatigue testing methodology for reliability assessments of fiber reinforced composite polymer materials in micro/nano systems

2011 12th Intl. Conf. on Thermal, Mechanical & Multi-Physics Simulation and Experiments in Microelectronics and Microsystems Pub Date : 2011-04-18 DOI:10.1109/ESIME.2011.5765794

S. Rzepka, H. Walter, R. Pantou, Y. Freed, B. Michel

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引用次数: 3

Abstract

The paper addresses the determination of the effects of time and temperature on strength and lifetime of structural polymer composites. For some time, this topic has already concerned the aerospace industry during their fatigue tests of light structures made of fiber reinforced polymer (FRP) under various loading modes. More recently, the issue has also become of great relevance to applications in microelectronics and micro/nano system technologies. Following the More-than-Moore development strategy, substrates and new innovative structural parts of those systems are exposed to complex and very challenging service conditions (e.g., implantable bio-medical, aeronautic, or automotive applications). In this paper, a new approach to accelerated testing highlighted in open literature has been assessed with respect to its potential for determining the fatigue behavior of composite materials used in microelectronics and micro/nano system technologies.

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微/纳米系统中纤维增强复合聚合物材料可靠性评估的加速疲劳试验方法

本文讨论了时间和温度对结构聚合物复合材料强度和寿命影响的测定。一段时间以来，航空航天工业对纤维增强聚合物(FRP)轻型结构在各种载荷模式下的疲劳试验已经引起了人们的关注。最近，这个问题也变得与微电子和微/纳米系统技术的应用密切相关。根据More-than-Moore的发展战略，这些系统的基板和新的创新结构部件暴露在复杂和非常具有挑战性的服务条件下(例如，植入式生物医学，航空或汽车应用)。本文评估了一种新的加速测试方法，该方法在确定微电子和微/纳米系统技术中使用的复合材料的疲劳行为方面具有潜力。

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2011 12th Intl. Conf. on Thermal, Mechanical & Multi-Physics Simulation and Experiments in Microelectronics and Microsystems

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