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首页> 外文期刊>Journal of optoelectronics and advanced materials >High performance of finite element method applied to plastic analysis of reinforced materials with application in optoelectronic devices
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High performance of finite element method applied to plastic analysis of reinforced materials with application in optoelectronic devices

机译:高性能有限元方法在增强材料塑性分析中的应用及其在光电器件中的应用

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Finite element analysis of creeping short fiber composites is carried out in the second stage creep with application in microelectronic and optoelectronic/photonic devices. Prediction of the creep behavior is very significant for designing the optoelectronic and photonic composites with optical fibers. Study on the creep behavior is necessary for failure, fracture, fatigue, and creep resistance of the optoelectronic/photonic composites. The creep behavior of the short fiber composites is estimated by FEM. Study on the creep behavior is necessary for defect analysis and creep resistance of the short fiber composites. In this research work, prediction of the creep behavior of the short fiber composites is done under tensile axial stress by FEM. Application of the present research work is in design of the short fiber composites. Industrial application of the present method and findings is in shuttles, spaceships, and sensors. To accomplish to this aim, the available experimental results [9] are used for the FEM simulation.
机译:在第二阶段蠕变中对蠕变短纤维复合材料进行了有限元分析,并将其应用于微电子和光电/光子器件中。蠕变行为的预测对于设计具有光纤的光电子和光子复合材料非常重要。对蠕变行为的研究对于光电子/光子复合材料的破坏,断裂,疲劳和抗蠕变性是必要的。短纤维复合材料的蠕变行为通过FEM估算。对于蠕变行为的研究对于短纤维复合材料的缺陷分析和抗蠕变性是必要的。在这项研究工作中,对短纤维复合材料的蠕变行为的预测是通过有限元法在轴向拉伸应力下完成的。本研究工作在短纤维复合材料设计中的应用。本方法和发现的工业应用是在航天飞机,宇宙飞船和传感器中。为了达到这个目的,可用的实验结果[9]用于有限元模拟。

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