微机电系统(Mems)双金属作动器热应力分析的数值研究

C. Rao, Tjprc
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引用次数: 1

摘要

微机电系统(MEMS)执行器由于设计、材料和制造的原因,能够在非常小的范围内获得机械运动。双金属微致动器也是实现微米级物理功能的MEMS器件之一。一种基于热感测的双金属微致动器能够由于末端产生的加热而产生小的位移。由于粘结条材料的热膨胀系数不同,致动器发生弯曲,产生的变形是微运动的量度。在弯曲过程中,所产生的应力可能导致梁发生凝视或变形。本文对由二氧化硅和硅层结合而成的双金属条构成的MEMS致动器进行了有限元建模和仿真,求出了致动器的总变形、应力和应变。计算结果与理论结果吻合较好。
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A Numerical Study on Thermal Stress Analysis of A Micro Electro Mechanical Systems (Mems) Bimetallic Actuator
Micro Electro Mechanical Systems (MEMS) actuators are capable of obtaining mechanical motion on a very small scale due to the design, materials and fabrication. A bi metallic micro actuator is also one of MEMS device that can perform physical functions at micron meter scale. A bi metallic micro actuator based on thermal sensing is capable of making small displacements due to resultant heating at the end. Because of different thermal expansion coefficients of the bonded strip materials, the actuator undergoes bending and the resultant deformation is a measure of the micro motion. During bending, the stresses generated may cause the beam to undergo staring or deformation. In the present work, MEMS actuator in which a bi metallic strip made up of Silicon dioxide and silicon layers bonded together is modeled and simulated using Finite Element Method for finding the total deformation, stresses and strain. The results are validated with theoretical results and are in good agreement.
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