The prospect of using Shewhart control charts in assessing the quality of ionometric measurements by the method of adding a sample to a standard

Izvestiya of Saratov University. New Series. Series: Chemistry. Biology. Ecology Pub Date : 2021-12-16 DOI:10.18500/1816-9775-2021-21-4-399-404

V. M. Shatunov, A. I. Fokina, T. Ashikhmina

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Abstract

Modern methods of quantitative physical and chemical measurements should necessarily include procedures for quality control of research results. Recently, the procedure for quality control of measurements using control charts is gaining particular popularity in the practice of analytical measurements. To date, the methods of potentiometric studies operating in the territory of the Russian Federation, in most cases, do not include quality control using this control procedure. However, despite the complexity of the implementation and interpretation of its results, it is the use of control charts that allows you to control the quality of ionometric measurements. This is especially important for potentiometric determinations based on the addition method, since the instability of the slope of the electrode function and its deviation significantly contribute to the uncertainty of the measurement results. This article presents the main results of evaluating the use of the Shewhart control chart method for monitoring the repeatability and accuracy of measurement results. The measurement results have been obtained using an improved method of quantitative potentiometric determination of high concentrations (more than 1 gm/cdm) of ammonium ions by the method of adding a sample to the standard. In addition, an experimental substantiation of the fact that the value of the slope of the electrode function significantly affects the accuracy of measurements by the addition method has been presented. It has been revealed that when the angular coefficient of the electrode function is more than 62 mV/pNH4+ at (25±5)°C, deviations of the measurement results from the control standard by more than 50% are observed. It has been found that at (25±5)°С the most accurate results of quantitative determination are achieved when the angular coefficient of the electrode function is from 54 mV/pNH4+ to 62 mV/pNH4+ inclusive.

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用休哈特控制图评价离子计量测量质量的前景

现代定量物理和化学测量方法必须包括对研究结果进行质量控制的程序。最近，使用控制图进行测量质量控制的程序在分析测量的实践中得到了特别的普及。迄今为止，在俄罗斯联邦境内进行的电位法研究方法在大多数情况下不包括使用这一控制程序进行质量控制。然而，尽管其结果的实现和解释很复杂，但正是控制图的使用使您能够控制离子计量测量的质量。这对于基于加法法的电位测定尤其重要，因为电极函数斜率的不稳定性及其偏差极大地影响了测量结果的不确定度。本文介绍了评价使用休哈特控制图法监测测量结果的可重复性和准确性的主要结果。采用在标准品中加入样品的方法，改进了高浓度(大于1 gm/cdm)铵离子的定量电位测定方法，得到了测量结果。此外，实验还证实了电极函数斜率的大小对加法法测量的精度有显著影响。结果表明，在(25±5)℃下，当电极函数的角系数大于62 mV/pNH4+时，测量结果与对照标准偏差大于50%。在(25±5)°С下，当电极函数的角系数在54 mV/pNH4+至62 mV/pNH4+范围内时，定量测定结果最准确。

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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Izvestiya of Saratov University. New Series. Series: Chemistry. Biology. Ecology

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