HEATING EFFECTS ON THE YOUNG'S MODULUS OF FILMS SPUTTERED ONTO MICROMACHINED RESONATORS

机译：对微机谐振器上溅射的薄膜的杨氏模量的热效应

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Surface-micromachined polysilicon lateral resonant structures were fabricated and used to determine the temperature dependence of the Young's modulus of the polysilicon . This is done by passing a dc current through the beams during resonance testing, resulting in Joule-heating. The temperatures are calibrated by increasing the dc current until the melting point of silicon is attained. The calculated Young's moduli agree well with reported values for single crystal silicon.rnIn addition, metal films were sputter-deposited onto the polysilicon resonators, and similar experiments performed on the composite devices to determine the temperature dependence of the modulus of the sputtered films. Ni films demonstrate a linear decrease in Young's modulus with temperature. TiNi films demonstrate two distinct modulus values with an intermediate transition region, due to the temperature-induced reversible phase transformation exhibited by TiNi.

机译：制造了表面微加工的多晶硅横向共振结构，并用于确定多晶硅的杨氏模量的温度依赖性。这是通过在谐振测试过程中使直流电流通过电子束来完成的，从而导致焦耳热。通过增加直流电流来校准温度，直到达到硅的熔点为止。计算出的杨氏模量与单晶硅的报道值非常吻合。此外，将金属膜溅射沉积到多晶硅谐振器上，并对复合器件进行类似的实验，以确定溅射膜的模量与温度的关系。镍膜表现出杨氏模量随温度线性下降。由于TiNi表现出温度诱导的可逆相变，因此TiNi薄膜在中间过渡区域表现出两个不同的模量值。

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来源
《Microelectromechanical structures for materials research》|1998年|33-38|共6页
会议地点 San Francisco CA(US)
作者
H. KAHN; M.A. HUFF; A.H. HEUER;
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作者单位

Department of Materials Science and Engineering, Applied Physics, Case Western Reserve University, Cleveland, OH 44106;

Department of Electrical Engineering and Applied Physics, Case Western Reserve University, Cleveland, OH 44106;

Department of Materials Science and Engineering, Applied Physics, Case Western Reserve University, Cleveland, OH 44106;

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正文语种 eng
中图分类结构;材料;
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HEATING EFFECTS ON THE YOUNG'S MODULUS OF FILMS SPUTTERED ONTO MICROMACHINED RESONATORS

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