RF-MEMS金属薄膜机械性能表征方法

V. Burg, J. den Toonder, A. van Dijken, J. Hoefnagels, M. Geers
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引用次数: 10

摘要

评价了一种表征RF-MEMS中独立金属薄膜材料力学性能的方法。采用工业化RF-MEMS制造工艺,从晶圆顶部的AlCu(1wt%)溅射层制造独立梁结构。研究了微观结构和几何形状的检测方法。结果表明,这些方法在提取所需的材料信息方面是有希望的。利用压头装置对不同长度和厚度的微尺度梁进行了简单的弯曲实验。从结果中提取材料的弹性特性,采用有限元技术结合弹性理论,消除了大量有限元模拟的必要性。结果表明,梁的长度和压头的位置起着至关重要的作用。所得结果与较长光束的期望值一致,但在实验范围内与薄膜厚度没有明显的关系
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Characterization Method for Mechanical Properties of Thin Freestanding Metal Films for RF-MEMS
A method for the characterization of mechanical properties of freestanding thin metal film materials used in RF-MEMS is evaluated. Freestanding beam structures are manufactured from a sputtered layer of AlCu(1wt%) on top of a wafer using an industrialized RF-MEMS manufacturing process. The methods of examining micro structure and geometry are studied. It is shown that these methods are promising for extracting the desired information about the material. Simple bending experiments are carried out on micro-scale beams of varying length and thickness using an indenter device. Elastic material properties are extracted from the results, using finite element technology combined with elastic theory, removing the necessity of extensive finite element simulations. It is shown that the beam length and indenter positioning play a crucial role. The obtained results show agreement with expected values for longer beams, but no obvious relation with the film thickness is found within the experimental range addressed
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