一种光学扭矩传感器的研制及扭矩-振动对应关系的检测

Q2 Arts and Humanities

Journal of Namibian Studies Pub Date : 2023-08-10 DOI:10.59670/jns.v35i.3952

Mrs. A.V. Adwant, Dr. Manpreet Singh, Dr. Suhas Deshmukh, Dr. Vijay Kumar Singh

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引用次数: 0

摘要

可靠、非侵入式和精确的扭矩测量对于旋转机械系统的动态性能和监测至关重要。本研究有助于提出一种扭矩测量技术，该技术由安装在斑马胶带上的两个不同轴和刚性支撑上的光学传感器组成。它是一种适应性强的设计，安装简单，从而使其准确用于先进的工程应用。这些测量可以通过增强互相关和上升边缘检测技术来实现。通过增加转矩诱导器，可以提高系统在变工况和静态工况下的性能。不确定度的测量可以借助GUM ISO来实现。对实验数据中的A类进行分析，可以在互相关方法中分别得到0.30%和0.90%的扭矩满标度。本研究采用蒙特卡罗方法进行统计模拟，预期不确定性为1.19%。

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Development Of An Optical Torque Sensor And Examining Torque-Vibration Correspondence

A reliable, non-intrusive, and precise measurement of torque is essential for the dynamic performance and monitoring of rotating mechanical systems. This study helps in presenting a technique for the torque measurement that consists of two different shafts mounted on tapes of zebra and sensors that are optical on the rigid support. It is an adaptable design that is simple to install, thereby making it accurate for the use of advanced engineering applications. These measurements could be achieved by the enhancements of cross-correlation and rising edge detection techniques. It helps to enhance the performance of the systems under both variable and static conditions by increasing the torque inducer. Uncertainty measurement could be achieved with the help of GUM ISO. An analysis of Type A in the data provided in the experiments helps in providing a torque full-scaling of 0.30% and 0.90% in the approaches of cross-correlation, respectively. In this study, the statistical simulations have been performed with the help of Monte Carlo method with an expected 1.19% uncertainty.

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Journal of Namibian Studies Arts and Humanities-History

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