Impact of thermal ageing on cohesive and adhesive strengths of overmould materials: Characterisation methods and implementation in FEM

机译：热老化对多功能材料的粘性和粘合强度的影响：FEM中的特征方法和实施

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This paper reports the impact of ageing on the cohesive and adhesive strength of overmould materials used in electronic packages. For so-called harsh environment applications, the overmoulded package operates in an ambient at a continuous temperature of 175°C, or sometimes even 200°C. At these high temperatures, it can be expected that the overmould material and its interfaces degrade. In order to select the right overmould materials, ageing tests have been performed on different commercially available materials. Static bending experiments are used to measure the elastic modulus, the ultimate strength and the interface strength. The impact of the materials properties changed by thermal ageing, are implemented in Finite Element Models. For a particular package, the study shows after how many hours of ageing, the stresses can lead to overmould cracking.

机译：本文报告了老化对电子包装中使用的粘性和粘合强度的影响。对于所谓的苛刻环境应用，过型封装在175°C的连续温度下在环境中运行，或者有时甚至是200°C。在这些高温下，可以预期将过度材料及其界面降低。为了选择右侧材料，已经在不同的市售材料上进行了老化测试。静态弯曲实验用于测量弹性模量，极限强度和界面强度。热老化改变的材料性能的影响在有限元模型中实现。对于特定包装，研究显示在衰老几小时后，应力会导致过度开裂。

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《International Conference on Thermal, Mechanical and Multi-Physics Simulation and Experiments in Microelectronics and Microsystems》|2011年||共5页
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Ivankovic A.; Vanstreels K.; Hsu YY; Gonzalez M.; Brizar G.; Vanderstraeten D.; Blansaer E; Gillon R.; Defloor Martijn; Vandaele K.; Degryse D.; Vandevelde B.;
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Impact of thermal ageing on cohesive and adhesive strengths of overmould materials: Characterisation methods and implementation in FEM

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