Predicting the directional spectral emissivity for rough surfaces polished by sandpaper

[1]  V. Racherla,et al.  Surface finishing of aluminium 6061 using fabricated flexible abrasive tool , 2022, Materials Today Communications.

[2]  T. Echániz,et al.  Experimental and numerical study of the emissivity of rolled aluminum , 2022, Infrared Physics & Technology.

[3]  Hao Wang,et al.  Isotropic etching polishing of belt ground Inconel 718 to improve surface strengthening and quality , 2022, Surface and Coatings Technology.

[4]  M. Steiner,et al.  Thermophotovoltaic efficiency of 40% , 2021, Nature.

[5]  M. Sharifpur,et al.  Influence of artificial roughness parametric variation on thermal performance of solar thermal collector: An experimental study, response surface analysis and ANN modelling , 2022, Sustainable Energy Technologies and Assessments.

[6]  C. Grigoropoulos,et al.  Temperature-adaptive radiative coating for all-season household thermal regulation , 2021, Science.

[7]  J. McDermid,et al.  Effect of Annealing Atmosphere and Steel Alloy Composition on Oxide Formation and Radiative Properties of Advanced High-Strength Steel Strip , 2021, Metallurgical and Materials Transactions B.

[8]  J. McDermid,et al.  Interpreting the Radiative Properties of Advanced High Strength Steel Strip using a Hybrid Thin Film/Geometric Optics Model , 2021, Journal of Quantitative Spectroscopy and Radiative Transfer.

[9]  K. Daun,et al.  Interpreting the radiative properties of advanced high strength steel using the geometric optics ray-tracing approximation , 2021 .

[10]  K. Daun,et al.  Effect of coating thickness on the in-situ reflectance and surface roughness of Al-Si coated 22MnB5 steel , 2021 .

[11]  Kai-hua Zhang,et al.  An Apparatus for the Directional Spectral Emissivity Measurement in the Near Infrared Band , 2021, International Journal of Thermophysics.

[12]  Yanlei Liu,et al.  Accuracy improvement for directional polarized spectral emissivity measurement in the wavelength range of 4–20 μm , 2021, Experimental Thermal and Fluid Science.

[13]  Jeremy B. Wright,et al.  Investigating relationship between surface topography and emissivity of metallic additively manufactured parts , 2020, International Communications in Heat and Mass Transfer.

[14]  Kai-hua Zhang,et al.  Modified two-temperature calibration method for emissivity measurements at high temperatures , 2020 .

[15]  F. Mücklich,et al.  Applying Ultrashort Pulsed Direct Laser Interference Patterning for Functional Surfaces , 2020, Scientific Reports.

[16]  K. Şendur,et al.  Surface Roughness Effects on the Broadband Reflection for Refractory Metals and Polar Dielectrics , 2019, Materials.

[17]  David W. Wang,et al.  Predicting Radiometric Effects of a Rough Sea Surface, Whitecaps, Foam, and Spray Using SURFER 2D , 2019, IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing.

[18]  H. Lee Simple Regression Model for Estimating Reflectance Reduction due to Random Surface Roughness , 2019, International Journal of Thermophysics.

[19]  Xiangchen Meng,et al.  A Monte Carlo Emissivity Model for Wind-Roughened Sea Surface , 2019, Sensors.

[20]  Fusen Yuan,et al.  Effects of mechanical polishing treatments on high cycle fatigue behavior of Ti-6Al-2Sn-4Zr-2Mo alloy , 2019, International Journal of Fatigue.

[21]  Mu Gu,et al.  Theoretical investigation on spectral emissivity of thermal control coatings with optical-rough surface , 2019, Optik.

[22]  H. Tan,et al.  Measurement of spectral radiative characteristics of molten salt at high temperature using emission method , 2019, Applied Thermal Engineering.

[23]  S. Bukkapatnam,et al.  Surface plastic flow in polishing of rough surfaces , 2016, Scientific Reports.

[24]  Tomáš Králík,et al.  A database of metallic materials emissivities and absorptivities for cryogenics , 2019, Cryogenics.

[25]  Yuejin Zhao,et al.  Development of experimental apparatus for precise emissivity determination based on the improved method compensating disturbances by background radiation , 2018, Infrared Physics & Technology.

[26]  F. Gao,et al.  Correlations between third body evolution and tribological performance of copper-matrix friction material under abrasive paper interference conditions , 2018 .

[27]  Hongze Wang,et al.  A model to calculate the laser absorption property of actual surface , 2018 .

[28]  Leung Tsang,et al.  Rough Surface and Volume Scattering of Soil Surfaces, Ocean Surfaces, Snow, and Vegetation Based on Numerical Maxwell Model of 3-D Simulations , 2017, IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing.

[29]  J. L. King,et al.  Computation of total hemispherical emissivity from directional spectral models , 2017 .

[30]  Xiaodong Zhang,et al.  Spectral sea surface reflectance of skylight. , 2017, Optics express.

[31]  Xudong Peng,et al.  Effect of abrasive size on friction and wear characteristics of nitrile butadiene rubber (NBR) in two-body abrasion , 2016 .

[32]  C. Guedes Soares,et al.  Experimental assessment of tensile strength of corroded steel specimens subjected to sandblast and sandpaper cleaning , 2016 .

[33]  Wei Zhang,et al.  Deviation characteristics of specular reflectivity of micro-rough surface from Fresnel's equation , 2015 .

[34]  P. Honnerová,et al.  Survey of emissivity measurement by radiometric methods. , 2015, Applied optics.

[35]  T. Fu,et al.  Total hemispherical radiation properties of oxidized nickel at high temperatures , 2014 .

[36]  David Bergström,et al.  The absorption of light by rough metal surfaces—A three-dimensional ray-tracing analysis , 2008 .

[37]  L. Campo,et al.  New experimental device for infrared spectral directional emissivity measurements in a controlled environment , 2006 .

[38]  Issam Mudawar,et al.  Modeling the effects of surface roughness on the emissivity of aluminum alloys , 2006 .

[39]  R. O. Buckius,et al.  The geometric optics approximation for reflection from two-dimensional random rough surfaces , 1998 .

[40]  R. J. Bell,et al.  Optical properties of Al, Fe, Ti, Ta, W, and Mo at submillimeter wavelengths. , 1988, Applied optics.