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High performance of finite element method applied to plastic analysis of reinforced materials with application in optoelectronic devices

V. MONFARED1,* , S. DANESHMAND2, D. FAZAELI3

Affiliation

  1. Department of Mechanical Engineering, Zanjan Branch, Islamic Azad University, Zanjan, Iran
  2. Department of Mechanical Engineering, Majlesi Branch, Islamic Azad University, Isfahan, Iran
  3. School of Mechanical Engineering, Sharif University of Technology, Tehran, Iran

Abstract

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..

Keywords

FEM, Short fiber composite, Creep.

Submitted at: July 1, 2015
Accepted at: Sept. 9, 2015

Citation

V. MONFARED, S. DANESHMAND, D. FAZAELI, High performance of finite element method applied to plastic analysis of reinforced materials with application in optoelectronic devices, Journal of Optoelectronics and Advanced Materials Vol. 17, Iss. 9-10, pp. 1545-1548 (2015)