Investigation of a cleaning procedure for silicon spheres used in the realization and dissemination of the redefined kilogram via combined spectroscopic and gravimetric measurements

Q3 Engineering

International Journal of Metrology and Quality Engineering Pub Date : 2020-11-01 DOI:10.1051/ijmqe/2020016

E. Beyer, M. Borys, M. Mecke, M. Kolbe

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引用次数: 1

Abstract

The new definition of the SI kilogram requires new methods of realizing this unit. The X-ray crystal density method is a primary realization method and uses silicon spheres. The spheres get cleaned before each measurement, in order to remove surface contaminations and thus reduce their uncertainty contribution to the realization. Therefore, cleaning is an inherent part of the realization and dissemination of the kilogram. A cleaning method for silicon spheres is investigated, concerning its suitability as a part of the realization of the redefined kilogram. Six silicon spheres were used to determine the repeatability of the established cleaning method. Measurements of the spheres' mass and the quantification of their surface layer mass after cleaning were carried out in several cycles resulting in 29 mass and surface measurements. The repeatability of the cleaning method applied shows a standard deviation in the order of two micrograms for both the mass and the surface layer. The cleaning method therefore sufficiently fulfils these requirements.

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用光谱和重量测量相结合的方法实现和传播重定义的千克时所用硅球的清洗程序的研究

国际单位制千克的新定义要求采用新的方法来实现这个单位。x射线晶体密度法是主要的实现方法，使用硅球。球体在每次测量前都要清洗，以去除表面污染，从而减少它们对实现的不确定度贡献。因此，清洗是实现和传播千克的固有环节。研究了一种硅球的清洗方法，考虑了它作为实现重定义千克的一部分的适用性。用6个硅球测定所建立的清洗方法的重复性。在几个循环中进行了球的质量测量和清洁后其表面层质量的量化，共进行了29次质量和表面测量。所应用的清洗方法的可重复性显示质量和表面层的标准偏差为两微克。因此，清洗方法充分满足这些要求。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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