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研究生郑维康参加国际会议回国报告

发布时间:2019-11-19 点击数:

汇报题目:ASME IMECE2019国际会议参会报告

汇报时间:2019年11月20日(星期三)

汇报地点:曲江校区西二楼319室19:00

汇报人:郑维康

会议名称:Proceedings of the ASME 2019 International Mechanical Engineering Congress and Exposition

会议时间:2019年11月8日至14日

会议地点:Salt Lake City, USA

会议简介:ASME IMECE(American Society of Mechanical Engineers International Mechanical Engineering Congress &Exposition)国际会议是美国机械工程师学会举办的世界范围内最大的机械工程学术会议,每年举办一次,为金沙威尼斯欢乐娱人城指定高水平国际会议。

参会论文信息:

Title:An optimized 3D probe using sensitivity and compliance analysis

Author: Weikang Zheng, Zhigang Liu, Junkang Guo

Abstract:

High-precision micro/nano probe plays an increasingly important role in manufacturing and measurement. The multi-arm elastic mechanism that can produce deformation under the contact force is widely used in the design of probe. The striking feature of this mechanism is that multiple variables are coupled to each other and are not easily separated. However, the transfer matrix of probe, rather than a multivariable decoupling model, is widely used as a measurement model in traditional research.

Transfer matrix appears as a “black box” and does not reveal working principles of probe. Our previous research proposed a 3D decoupling model. The 3D model presents the coupling relationship between input and output variables, and also finishes a theoretical explanation of complex features of 3D probe. Recent studies have found that this decoupling model has practical value in parameter and shape optimization of probe. As the optimized purpose, two indicators—sensitivity and compliance (reciprocal of stiffness) are proposed from the model. The increased sensitivity means the probe has a lower resolution requirement for the capacitive sensor used. High compliance of probe means small contact force between the stylus ball and workpiece. Excessive stiffness can cause excessive contact forces that damages surface of workpiece. Combined with theoretical model and finite element analysis (FEA), the key parameters affecting sensitivity and compliance of probe are extracted, and a new optimized elastic mechanism based on an originalHexflexmechanism. The new optimized probe has better performance with sensitivity, input compliance, output compliance increased by 78.6%, 48.4% ,157.7%, respectively.

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