Rapid investigation of nanocrystalline diamond vibrating membranes with a stroboscopic interferometer

L. Francis, A. Kromka, D. Steinmuller-Nethl, P. Bertrand, C. van Hoof
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引用次数: 2

Abstract

Nanocrystalline diamond is a promising material for the fabrication of highly sensitive flexural plate wave (FPW) sensors. The design of the FPW sensor requires the determination of the mechanical properties of a thin film membrane. In this paper we investigate the mechanical resonance of nanocrystalline diamond membranes with a stroboscopic interferometer optical system. Membranes with lateral dimensions in the range 0.8 to 6 mm and about 1 /spl mu/m thick were excited in air by a loudspeaker. The resonance frequencies helped to determine the mechanical properties of the diamond membrane and give directly the parameter of interest for the FPW sensor design. Our method allows the rapid investigation of the material without requiring an integrated transduction system and can be used to analyze structures with the actual dimensions of the FPW sensor.
用频闪干涉仪快速研究纳米晶金刚石振动膜
纳米晶金刚石是制造高灵敏度弯曲板波传感器的一种很有前途的材料。FPW传感器的设计需要确定薄膜的机械性能。本文利用频闪干涉仪光学系统研究了纳米晶金刚石膜的机械共振。横向尺寸在0.8 ~ 6mm之间,厚度约为1 /spl mu/m的膜通过扬声器在空气中激发。共振频率有助于确定金刚石膜的力学性能,并直接为FPW传感器设计提供感兴趣的参数。我们的方法可以在不需要集成转导系统的情况下对材料进行快速研究,并且可以使用FPW传感器的实际尺寸来分析结构。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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