Design and Analysis of a Micromechanical Three-Component Force Sensor for Characterizing and Quantifying Surface Roughness

Q. Liang; W. Wu; D. Zhang; B. Wei; W. Sun; Y. Wang; Y. Ge

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Design and Analysis of a Micromechanical Three-Component Force Sensor for Characterizing and Quantifying Surface Roughness

机译：用于表征和量化表面粗糙度的微机械三分量力传感器的设计与分析

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Roughness, which can represent the trade-off between manufacturing cost and performance of mechanical components, is a critical predictor of cracks, corrosion and fatigue damage. In order to measure polished or super-finished surfaces, a novel touch probe based on three-component force sensor for characterizing and quantifying surface roughness is proposed by using silicon micromachining technology. The sensor design is based on a cross-beam structure, which ensures that the system possesses high sensitivity and low coupling. The results show that the proposed sensor possesses high sensitivity, low coupling error, and temperature compensation function. The proposed system can be used to investigate micromechanical structures with nanometer accuracy.

机译：粗糙度可以代表制造成本和机械部件性能之间的折衷，是预测裂纹，腐蚀和疲劳损伤的关键指标。为了测量抛光或超精加工表面，提出了一种基于三分量力传感器的接触式探针，该探针通过硅微加工技术来表征和量化表面粗糙度。传感器设计基于横梁结构，可确保系统具有高灵敏度和低耦合。结果表明，该传感器具有高灵敏度，低耦合误差和温度补偿功能。所提出的系统可用于研究具有纳米精度的微机械结构。

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《Mineralogia》 |2015年第5期|共8页
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Q. Liang; W. Wu; D. Zhang; B. Wei; W. Sun; Y. Wang; Y. Ge;
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1. Design and Analysis of a Micromechanical Three-Component Force Sensor for Characterizing and Quantifying Surface Roughness [J] . Q. Liang, W. Wu, D. Zhang, Mineralogia . 2015,第5期

机译：用于表征和量化表面粗糙度的微机械三分量力传感器的设计与分析
2. Analysis of atomic force microscope pull-off forces for gold surfaces portraying nanoscale roughness and specific chemical functionality [J] . Garth W.Tormoen, Jaroslaw drelich, Elvin R.Beach Journal of Adhesion Science and Technology: The International Journal of Theoredtical and Basic Aspects of Adhesion Science and Its Applications in All Areas of Technology . 2004,第1期

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3. Estimating the effect of cutting data on surface roughness and cutting force during WC-Co turning with PCD tool using Taguchi design and ANOVA analysis [J] . Zebala Wojciech, Kowalczyk Robert The International Journal of Advanced Manufacturing Technology . 2015,第9a12期

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4. Surface Characterization of Carbon Fibers by Atomic Force Microscopy: Roughness Quantification by Power Spectral Density [C] . Bastian Brueck, Thomas Guglhoer, Simon Haug Symposium on Composites . 2017

机译：碳纤维的表面表征原子力显微镜：功率谱密度粗糙度量化
5. Design of a Three-Component Force Sensor for Meso-Milling Applications. [D] . Shao, Fu. 2015

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6. Surface Roughness Model Based on Force Sensors for the Prediction of the Tool Wear [O] . Beatriz de Agustina, Eva María Rubio, Miguel Ángel Sebastián 2014

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7. Design and Analysis of a Micromechanical Three-Component Force Sensor for Characterizing and Quantifying Surface Roughness [O] . Liang Q., Wu W., Zhang D., 2015

机译：用于表征和量化表面粗糙度的微机械三分力传感器的设计与分析

Design and Analysis of a Micromechanical Three-Component Force Sensor for Characterizing and Quantifying Surface Roughness

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