[1] Feifei Cao, Honghu Ji, Mingfei Yu, . Effects of low emissivity material coating site onwall temperature and infrared characteristics of exhaust system. Infrared and Laser Engineering, 49, 20190131-95(2020).

[2] Jingmin Dai, Xinbei Wang. Review of emissivity measurement and its applications. Acta Metrologica Sinica, 232-236(2007).

[3] Li Fu, Jinhao Fan, Zhaoyi Zhang, . Wall emissivity solved by bidirectional reflection distribution function combined with Bi-LSTM network. Infrared and Laser Engineering, 52, 20220355(2023).

[4] Jiwei Xu, Jun Zhou. Numerical calculation of millimeter wave pattern painting stealthy coat emissivity. Infrared and Laser Engineering, 46, 0321002-0321002(5)(2017).

[5] V T Le, N S Goo. Design, Fabrication, and testing of metallic thermal protection systems for spaceplane vehicles. Journal of Spacecraft and Rockets, 58, 1-18(2021).

[6] Iuchi T, Furukawa T. Emissivitycompensated radiation thermometry [C]International Measurement Confederation Wld Congress, 2000, 1065: 122008.

[7] M Adachi, S Hamaya, Y Yamagata, et al. In-situ observation of AlN formation from Ni-Al solution using an electromagnetic levitation technique. Journal of the American Ceramic Society, 103, 2389-2398(2020).

[8] M Adachi, A Sato, S Hamaya, et al. Containerless measurements of the liquid-state density of Ni–Al alloys for use as turbine blade materials. SN Applied Sciences, 1(2018).

[9] M Adachi, Y Yamagata, M Watanabe, et al. Composition dependence of normal spectral emissivity of liquid Ni–Al alloys. Iron and Steel Institute of Japan(2021).

[10] Jingwei Ding, Xiaopeng Hao, Kun Yu, . Research on spectral emissivity characteristics of blackbody coatings. Infrared and Laser Engineering, 52, 20230033(2023).

[11] J Qi, Q Eri, B Kong, et al. The radiative characteristics of inconel 718 superalloy after thermal oxidation. Journal of Alloys and Compounds, 854(2021).

[12] K Yu, R Tong, K Zhang, et al. An apparatus for the directional spectral emissivity measurement in the near infrared band. International Journal of Thermophysics, 42, 1-15(2021).

[13] Y Xu, K Zhang, K Yu, et al. Temperature-dependent emissivity models of aeronautical alloy DD6 and modified function for emissivity computation with different roughness. International Journal of Thermophysics, 42, 1-21(2021).

[14] Liang Yuan, Linguang Yuan, Zaitian Dong, . Measurement of normal spectral emissivity of materials at high temperature. Journal of Applied Optics, 44, 33-39(2023).

[15] Qiong Ding, Junpeng Yu. LiDAR intensity calibration based on multiple strips. Remote Sensing Information, 33, 89-93(2018).

[16] K Sanna, J Anttoni, K Mikko, et al. Analysis of incidence angle and distance effects on terrestrial laser scanner intensity: search for correction methods. Remote Sensing, 3, 2207-2221(2011).

[17] Ferrero A, Rabal A M, Campos J, et al. Spectral geometrical variation of the bidirectional reflectance distribution function of diffuse reflectance stards[J]. Applied Optics , 2012, 51(36): 85358540.

[18] F Coren, P Sterzai. Radiometric correction in laser scanning. International Journal of Remote Sensing, 27, 3097-3104(2006).

[19] D Perez, Y Quintana. A survey on the Weierstrass approximation theorem. Divulgaciones Matematicas, 16, 231-247(2008).

[20] K Tan, X Chen. Correction of incidence angle and distance effects on TLS intensity data based on reference targets. Remote Sensing, 8, 251(2016).

[21] C Wang, J Hu, F Wang, et al. Measurement of Ti–6Al–4V alloy ignition temperature by reflectivity detection. Review of Scientific Instruments, 89, 044902(2018).