用于纳米级偏差齿轮测量的三维微探测系统

2013 International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale Pub Date : 2013-08-01 DOI:10.1109/3M-NANO.2013.6737426

N. Ferreira, D. Metz, A. Dietzel, S. Buttgenbach, T. Krah, K. Kniel, F. Hartig

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引用次数: 8

摘要

基于硅力传感器的三维微探测系统允许在几μN范围内进行力测量。它们的高灵敏度使得三维微纳米结构的触觉测量不会在探测表面留下强烈的痕迹。然而，它们的6.5毫米× 6.5毫米的小尺寸不允许容易处理，并可能导致整个系统迅速断裂。为了提高这些微探针系统的操控性和集成度，研制了一种新型探针头和一种合适的装配方法。为了证明微探头在坐标计量中使用的性能和高再现性，在校准的直齿齿轮上使用常规齿轮测量仪进行了许多测量。结果与校准值进行了比较，偏差最大在100 nm左右。

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3D micro probing systems for gear measurements with nanometer-scale deviation

Three-dimensional micro probing systems based on silicon force sensors allow force measurements in the range of several μN. Their high sensitivity enables tactile measurements of three-dimensional micro- and nanostructures without leaving strong traces on the probed surfaces. However, their small sizes of 6.5 mm × 6.5 mm do not allow an easy handling and can lead to a breakage of the complete system rapidly. To improve the handling and the integration of these micro probing systems a new kind of probe head and an appropriate assembling method have been developed. In order to show the performance and the high reproducibility of microprobes for their use in coordinate metrology, many measurements have been carried out with a customary gear measuring instrument on a calibrated spur gear. The results have been compared to calibration values and the deviations are in the range of maximum some 100 nm.

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2013 International Conference on Manipulation, Manufacturing and Measurement on the Nanoscale

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