Uncertainty evaluation of oxygen content in electrolytic iron powder by pulse melting reduction-infrared absorption method
MA Cheng-xin1,SHI Xiao-hua2
(1. National Center for Quality Supervision and Inspection of Diamond Tools, Ezhou 436000, China 2. Hubei Special Equipment Inspection Institute Ezhou Branch, Ezhou 436000, China)
Abstract:According to the procedure of measurement uncertainty in analysis and testing, and combined with the measurement and analysis principle of oxygen analyzer, the uncertainty of determining oxygen content in electrolytic iron powder by pulse melting reduction-infrared absorption method was evaluated. Through analysis of the measurement process, the establishment of mathematical model, each uncertainty component was calculated. Results show that the relative standard uncertainty caused by measurement repeatability is 0.002 360, the relative standard uncertainty caused by standard substances is 0.000 188, the relative standard uncertainty caused by instrument calibration is 0.000 584, the relative standard uncertainty caused by sample weighing is 0.004 350, and the relative standard uncertainty caused by instrument indication value is very small and negligible, thus obtaining an expanded uncertainty of 0.000 490%. The result of determination of oxygen content in electrolytic iron powder by pulse melting reduction-infrared absorption method is as follows: [WM=(0.048 800±0.000 490)%,][k=2.]It provides a theoretical basis for the accuracy of oxygen content determination of electrolytic iron powder.
收稿日期: 2017-03-17
出版日期: 2018-10-12
通讯作者:
马成新
E-mail: 1092976592@qq.com
引用本文:
马成新,史小华. 脉冲熔融还原-红外吸收法测定电解铁粉中氧含量的不确定度评定[J]. , 2018, 28(05): 46-49.
MA Cheng-xin,SHI Xiao-hua. Uncertainty evaluation of oxygen content in electrolytic iron powder by pulse melting reduction-infrared absorption method. , 2018, 28(05): 46-49.