Simplified Methods for Calculating Uncertainties for Routine Calibrations

NCSL International Workshop & Symposium Conference Proceedings 2013 Pub Date : 1900-01-01 DOI:10.51843/wsproceedings.2013.55

D. Deaver

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引用次数: 1

Abstract

Calculating uncertainties is one of the more time-consuming and sometimes daunting tasks for ISO/IEC 17025 accredited laboratories. However, the emphasis for laboratories, accreditation bodies and their assessor has been on the uncertainty budgets that support the laboratory's Calibration and Measurement Capability (CMC) that is summarized in its Scope of Accreditation. This is a summary of the calibrations the laboratory can perform using its best equipment, conditions and staff. It is difficult for laboratories that intend to be profitable in a competitive environment to invest as much time in the development of the uncertainties for the routine calibrations as they do for the CMCs. The loopholes that some accredited laboratories have used to avoid the effort of calculating uncertainty on a regular basis are being closed due to stricter enforcement by their accreditation bodies and more restrictive clarifying standards such as ILAC P14. This paper offers some practical advice for laboratories seeking to calculate uncertainties in an efficient way for the majority of their calibrations which are not to their tightest uncertainties.

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常规校准不确定度的简化计算方法

对于ISO/IEC 17025认证的实验室来说，计算不确定度是一项更耗时，有时甚至令人望而生畏的任务。然而，实验室、认可机构及其评估人员的重点一直放在支持实验室校准和测量能力(CMC)的不确定性预算上，该不确定性预算概述在其认可范围中。这是实验室使用其最好的设备、条件和人员所能进行的校准的总结。对于打算在竞争环境中盈利的实验室来说，在常规校准的不确定度开发上投入与cmc相同的时间是困难的。由于其认可机构的执法更加严格，以及ILAC P14等更具限制性的澄清标准，一些认可实验室用来避免定期计算不确定度的漏洞正在被关闭。本文提供了一些实用的建议，为实验室寻求以有效的方式计算不确定度的大多数校准，而不是他们的最严格的不确定度。

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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NCSL International Workshop & Symposium Conference Proceedings 2013

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