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New Radius and Roundness Measurement for Microspheres Using a High-Precision Run-Out Error Separation Method

Wenkai Zhao, Ruijun Li, Liuhui Duan, Zhenying Cheng, Rongjun Cheng, Qiangxian Huang, Kuang–Chao Fan

2022IEEE Transactions on Instrumentation and Measurement16 citationsDOI

Abstract

Roundness is a kind of form error in geometrical measurement in laboratory and industry and contributes significantly to the uncertainty of the measurement instruments using precision spheres, especially microspheres. A new radius and roundness measurement method for microspheres is proposed in this paper. Using this method, not only can separate different run-out errors from the measuring results, but also can obtain the true radii in different directions of the tested microsphere, which are necessary for the roundness evaluation according to ISO 1101. A new roundness measurement system has also been developed, which is mainly composed of two miniaturized Michelson interferometer (MI) systems, two elastic mechanisms, and a precision rotating stage. Repeated measurements have been performed using a ruby microsphere manufactured by Renishaw Corporation as the reference, which has a claimed diameter and roundness of 700 μm and 130 nm respectively. Experimental results show that the average radius of the tested microsphere is 349.99 μm with a maximum error of 65 nm and an expanded uncertainty of 94.0 nm (k=2). The proposed method and system can be used in the precision contact measurements of parts with micro circular characteristics such as microspheres and micro cylinders.

Topics & Concepts

Roundness (object)Measurement uncertaintyInterferometryRADIUSObservational errorSystem of measurementMetrologyMaterials scienceOpticsSPHERESMathematicsComputer scienceEngineeringPhysicsStatisticsComposite materialComputer securityAerospace engineeringAstronomyAdvanced Measurement and Metrology TechniquesSurface Roughness and Optical MeasurementsAdhesion, Friction, and Surface Interactions
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