Measuring normal spectral emissivities of niobium by a pulse-heating technique: 1000 K to the melting point

Qingwei Wang; Peng Xiao; Jintao Yu; Jingmin Dai

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Measuring normal spectral emissivities of niobium by a pulse-heating technique: 1000 K to the melting point

机译：通过脉冲加热技术测量铌的正常光谱发射率：熔点为1000 K

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The normal spectral emissivity of niobium strip specimen is measured using a new pulse-heating reflectometric technique. The hemispherical spectral reflectivity of the surface of a strip tangent to an integrating sphere is determined by a high-speed lock-in technique. At the same time, the radiance temperature of the strip is measured by the multi-wavelength high-speed pyrometer from approximately 1000 K to the melting point. Details of the measurement method and of the related calibration techniques are reported. Results of the normal spectral emissivity of niobium at 633, 753, 827, and 905 nm from room temperature to its melting point are presented. The accuracy of spectral emissivities is estimated better than 5%.

机译：铌带状试样的标准光谱发射率是使用新的脉冲加热反射技术测量的。与积分球相切的条带表面的半球光谱反射率是通过高速锁定技术确定的。同时，通过多波长高速高温计从大约1000 K到熔点测量带材的辐射温度。报告了测量方法和相关校准技术的详细信息。给出了铌从室温到熔点在633、753、827和905 nm处的正常光谱发射率的结果。光谱发射率的准确性估计优于5％。

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来源
《Chinese Optics Letters》 |2006年第12期|p.701-704|共4页
作者
Qingwei Wang; Peng Xiao; Jintao Yu; Jingmin Dai;
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作者单位

Department of Automation Measurement and Control, Harbin Institute of Technology, Harbin 150001;

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原文格式 PDF
正文语种 eng
中图分类数理科学和化学;
关键词
instrumentation; measurement; and metrology; optical design of instruments; thermodynamics; temperature; emission;

机译：仪器仪表测量;和计量学;仪器的光学设计;热力学;温度;排放;

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Measuring normal spectral emissivities of niobium by a pulse-heating technique: 1000 K to the melting point

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