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and Engineering, 2014, 5(5): 1-12. [11] 张晓峰, 曹佐英, 肖连生, 等. 焙烧对高砷白烟灰中铜浸出率的影响及其热力学分析[J]. 矿业工程, 2012, 32(5): 86-89. ZHANG Xiao-feng, CAO Zuo-ying, XIAO Lian-sheng, et al. Effects on copper leaching rate in high... of Hazardous Materials, 2008, 152(3): 1115-1121. [35] HRMA P, CRUM J V, BATES D J, et al. Vitrification and testing of a Hanford high level waste sample. Part 1: Glass fabrication, and chemical......
of the Symposium on Geological Hazards and Prevention and Control in High-intensity Mining Areas. Xi’an: Shaanxi Provincial Geological Survey Institute, 2016: 114-119. [28] 薛 亮. 数百亿吨"废石", 成灾还是成金?[J]. 国土资源... in cemented paste backfill of high sulphide mill tailings.[J]. Journal of Hazardous Materials, 2009, 168(2/3): 848-856. [52] 张修香, 乔登攀, 孙宏生. 废石-尾砂高浓度料浆管道输送特性模拟[J]. 中国有色金属学报, 2019, 29(5): 1092-1101. ZHANG......
的最大拉伸力(UTS),纳米颗粒添加为1%时,UTS提高幅度为33.4%,屈服应力提高幅度为43%[68]. 图4 SnCu复合钎料室温拉伸应力-应变曲线[68] Fig. 4 Tensile stress-strain of SnCu solders at room temperature[68] 纳米SrTiO3颗粒作为添加物可显著提高SnAgCu焊球的剪切强度,在热... and microstructure of SnAgCu alloy[J]. Journal of Materials Science: Materials in Electronics, 2012, 23(11): 1950-1956. [64] Liu D S, Hsu C L, Kuo C Y, et al. A novel high speed impact testing method......
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Initial position of back buffer line 图24 矿岩交界处爆破设计损失贫化 Fig. 24 Loss and dilution of interface between ore and rock 4.2 开采设计 数字化开采设计以矿床地学数字化模型为基础,三维可视化软件为工具,计算机模拟为手段,安全高效低成本实现资源的..., SUN Ying, LI Kui-xing. High quality geological surface reconstruction from planar contours[J]. Journal of Geo-Information Science, 2015, 17(3):253-259. [27] 刘 佳, 王李管, 朱利晴. 金属矿山采矿单元布置多方案优化设计[J......
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