Abstract:Generally, the influence factors of the reflectance spectrum of rocks and minerals can be divided into the decisive factors related to composition and content, and the variant factors, including the particle size, roughness, observation angle and surface morphology. The study is focused on the relationship between the reflectance spectrum and the particle size of Anshan iron ore. Firstly, the reflectance spectra of the two main iron ores (hematite ore and magnetite ore) with different particle sizes are obtained by SVC HR-1024. Then, the influence of particle size on the reflectance spectra of both hematite and magnetite is analyzed. The sensitive waveband and stable waveband of the reflectance spectra related to particle size are extracted. The study indicates the following results. Firstly, the effects of particle size on the reflectance spectra of hematite and magnetite are different. For the hematite, the reflectance decreases with the particle size increase when the particle size is in the range of 0.03 to 1 mm. The effects are different in different waveband for the reflectance spectra of hematite. In the wave range of 350~550 nm, the particle size’s effect can be, neglected and this waveband can be regarded as the stable waveband. The influence is weak in the range of 550~950 nm and become obvious in the 950~1 250 nm range. In the range of 1 250~2 500 nm, the reflectance changes obviously with the particle size. Therefore, this waveband can be regarded as a sensitive waveband. However, when the particle size of the hematite is larger than 1 mm, the particle size’s effect decreased obviously without correlation. For the magnetite, the reflectance changes weakly with an amplitude of less than 3% when the particle size is in the range of 0.03 to 4 mm. There is no correlation between the reflectance and the particle size. This study revealed the quantitative relationship between the reflectance spectrum and the particle size for Anshan iron ore. The results can provide the foundation for improving the inversion accuracy of the ore grading for the Anshan iron.
Key words:Anshan iron mine; Particle size; Reflectance spectra; Quantitative analysis
王 东,刘善军,祁玉馨,刘海琪. 颗粒度对鞍山式铁矿反射光谱特征的影响研究[J]. 光谱学与光谱分析, 2021, 41(05): 1513-1518.
WANG Dong, LIU Shan-jun, QI Yu-xin, LIU Hai-qi. Effect of Particle Size on Reflectance Spectra of Anshan Iron Ore. SPECTROSCOPY AND SPECTRAL ANALYSIS, 2021, 41(05): 1513-1518.
[1] Walid S, Mourtada E A, Reinhard G. Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, 2015, 136(5): 1816.
[2] Feng Q C, Wen S M, Bai X, et al. Minerals Engineering, 2019, 137: 1.
[3] Zhao W J, Liu D W, Feng Q C, et al. Minerals Engineering, 2019, 141: 105846.
[4] YANG Bai-lin, WANG Xing-li, WANG Zhong-sheng(杨柏林, 王兴理, 王忠圣). Geochimica(地球化学), 1987,(1): 89.
[5] Salisbury J W, Wald A. ICARUS, 1992, 96(1): 121.
[6] Okin G S, Painter T H. Remote Sensing of Environment, 2004, 89: 272.
[7] WANG Jin-hua, CAO Lan-jie, BAI Yang, et al(汪金花, 曹兰杰, 白 洋, 等). Multipurpose Utilization of Mineral Resources(矿产综合利用), 2019,(2): 128.
[8] Carli C, Roush T L, Pedrazzi G. ICARUS, 2016, 266: 267.
[9] Hatcher A, Hill P, Grant P, et al. Marine Geology, 2000, 168: 115.
[10] MA Chuang, SHEN Guang-rong, WANG Zi-jun, et al(马 创, 申广荣, 王紫君, 等). Chinese Journal of Soil Science(土壤通报), 2015, 46(2): 292.
[11] WANG Yan-xia, WU Jian, ZHOU Liang-guang, et al(王延霞, 吴 见, 周亮广, 等). Spectroscopy and Spectral Analysis(光谱学与光谱分析), 2015, 35(3): 803.
[12] WANG Tao(王 涛). Science Technology and Engineering(科学技术与工程), 2017, 17(2): 234.
[13] Mi J R, Zhang L D, Zhao L L, et al. Frontiers of Optoelectronics,2013, 6(2): 216.
[14] Vernazza P, Carry B, Emery J, et al. ICARUS, 2010, 207: 800.
