Abstract:A calibration method of ozone concentration in ozone aging test chamber was proposed, and the uncertainty of indication error of ozone concentration was evaluated. It was verified by experiments that the indication error of ozone concentration in the calibrated ozone aging chamber was less than ±10%, the position deviation of ozone concentration was less than 20%, and the fluctuation of ozone concentration was less than ±10%. It effectively solved the problem of traceability of ozone concentration in the ozone aging chamber, and improved the accuracy of the equipment test.
[1]张爱亮,蔡泽仁,施禅臻,等. 臭氧老化试验箱中臭氧浓度的检测方法 [J]. 上海计量测试, 2016,43(2):35-41.
Zhang A L,Cai Z R,Shi C Z, et al. The methods of testing ozone concentration in ozone test,chambers [J]. Shanghai Measurement and Testing, 2016,43(2):35-41.
[2]徐云慧,佟兰,韦邦风,等. 耐臭氧龟裂试验机观察装置的设计及优化 [J]. 实验室研究与探索,2014,33(2):60-62.
Xu Y H,Tong L,Wei B F, et al. The Design and Optimization of Resistance to Ozone Cracking Tester Observation Device [J]. Research And Exploration In Laboratory 2014,33(2):60-62.
[3]徐云慧,李培培,宋帅帅,等. 橡胶臭氧龟裂试验机的设计与优化 [J]. 中国皮革,2015,44(17):32-35.
Xu Y H,Li B B,Song S S, et al. Design and optimization of rubber ozone cracking test machine [J]. China Leather, 2015,44(17):32-35.
[4]张爱亮,刘悦,陈启悦,等. 一种气溶胶光度计质量浓度的校准方法 [J]. 计量学报,2020,41(6):765-768.
Zhang A L,Liu Y,Chen Q Y, et al. A Calibration Method for Mass Concentration of Aerosol Photometers [J]. Acta Metrologica Sinica, 2020,41(6):765-768.
[5]程丽萍,李剑,夏春,等. 臭氧老化箱校准影响因素的研究 [J]. 低温与特气, 2020,38(3):96-102.
Cheng L P,Li J,Xia C, et al. Study on Influencing Factors of Ozone Aging Box Calibration [J]. Low Temperature and Specialty Gases, 2020,38(3):96-102.
[6]GB/T 35804—2018 硫化橡胶或热塑性橡胶 耐臭氧龟裂测定试验箱中臭氧浓度的试验方法 [S].
[7]张文静. 臭氧老化试验箱校准方法探索 [J]. 科技与创新,2018,(6):110-111.
Zhang W J. Exploration of calibration method of ozone aging test chamber [J]. Science and Technology & Innovation 2018,(6):110-111.
[8] 张静,周中木.臭氧老化箱校准方法的探讨 [J]. 计量与测试技术, 2019,46(5):96-102.
Zhang J,Zhou Z M. Discussion on Calibration Method of Ozone Aging Chamber [J].Metrology & Measurement Technique, 2019,46(5):96-102.
[9]张爱亮,刘悦,方利利. 一种臭氧老化试验箱的校准方法及不确定度分析 [J]. 上海计量测试,2021,48(2):45-47.
Zhang A L,Liu Y,Fang L L. Calibration method and uncertainty analysis of an ozone aging chamber [J]. Shanghai Measurement and Testing 2021,48(2):45-47.
[10]刘园园,杨健,赵希勇,等. GUM 法和MCM 法评定测量不确定度对比分析 [J]. 计量学报,2018,39(1):135-139.
Liu Y Y,Yang J,Zhao X Y, et al. Comparative Analysis of Uncertainty Measurement Evaluation with GUM and MCM [J]. Acta Metrologica Sinica, 2018,39(1):135-139.
[11] JJF 1059.1—2012 测量不确定度评定与表示[S].
[12]宋洁,腾飞,洪滔,等. 臭氧气体分析仪示值误差测量结果不确定度评定[J]. 工业计量,2015,25(S1):98.
Song J,Teng F,Hong T, et al. Uncertainty evaluation of indication error of ozone gas analyzer [J]. Industrial Metrology, 2015,25(S1):98.
[13]许金鑫,由强. 任意阶次多项式最小二乘拟合不确定度计算方法与最佳拟合阶次分析 [J]. 计量学报,2020,41(3):388-392.
Xu J X,You Q, Uncertainty Calculation for Arbitrary Order Polynomial Least-square Fittingand Analysis of the Best Fitting Order [J]. Acta Metrologica Sinica 2020,41(3):388-392.
[14]郑海明,刘佳. 差分吸收光谱测量臭氧浓度信号去噪的实验研究 [J]. 计量学报,2020,41(6):759-764.
Zheng H M,Liu J. Experimental Study on Denoising of Ozone Concentration Signal by Differential Absorption Spectroscopy [J]. Acta Metrologica Sinica, 2020,41(6):759-764.
[15]李玲丽,郑刚.天然橡胶耐臭氧性能研究 [J]. 中国橡胶,2019,35(6):46-49.
Li L L,Zheng G. Study on ozone resistance of natural rubber [J]. Applied Technology, 2019,35(6):46-49.
2021, Vol. 42 
