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萤石表面性质各向异性研究及进展 被引量:12
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作者 高跃升 高志勇 孙伟 《中国有色金属学报》 EI CAS CSCD 北大核心 2016年第2期415-422,共8页
基于萤石的晶体(表面)结构,研究并总结表面断裂键性质、解理及暴露面性质、表面(自由)能、润湿性、表面电性、吸附性等萤石表面物理化学性质的各向异性,讨论萤石晶体结构特征与表面性质之间的关系,分析不同表面性质之间的关联。结果表明... 基于萤石的晶体(表面)结构,研究并总结表面断裂键性质、解理及暴露面性质、表面(自由)能、润湿性、表面电性、吸附性等萤石表面物理化学性质的各向异性,讨论萤石晶体结构特征与表面性质之间的关系,分析不同表面性质之间的关联。结果表明:表面断裂键密度和表面能存在正相关性,表面断裂键密度可准确预测萤石的解理和暴露面性质,表面离子层结构差异、表面Ca质点及其断裂键差异可解释表面电性、润湿性、溶解性及吸附性的各向异性。 展开更多
关键词 萤石 表面 表面断裂键 各向异性 浮选
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白钨矿晶体化学及浮选现状 被引量:3
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作者 汪聪 邓建 +5 位作者 王建军 孙磊 孙伟 肖庆飞 曹亦俊 高志勇 《金属矿山》 CAS 北大核心 2021年第6期15-25,共11页
白钨矿是国家战略性矿产资源。浮选是基于不同矿物表面物理化学性质的差异实现不同矿物之间彼此分离的方法,也是目前高效处理利用白钨矿的最主要方法。基于白钨矿的晶体(表面)结构,研究并总结了表面断裂键性质、解理及暴露面性质、表面... 白钨矿是国家战略性矿产资源。浮选是基于不同矿物表面物理化学性质的差异实现不同矿物之间彼此分离的方法,也是目前高效处理利用白钨矿的最主要方法。基于白钨矿的晶体(表面)结构,研究并总结了表面断裂键性质、解理及暴露面性质、表面(自由)能、润湿性、表面电性、吸附性等白钨矿的表面物理化学性质及其各向异性,归纳了晶体结构特征与表面性质之间的关系,分析了不同表面性质之间的关联,解释了白钨矿的分选原理。研究发现,表面断裂键密度(D_(b))和表面能存在正相关性,(112)、(001)和(101)面是白钨矿最主要的暴露面,具有较小的D_(b)和表面能,其D_(b)大小关系为:(101)面>(112)面>(001)面,所以自然条件下(112)面和(001)面为主要解理和暴露面,(101)面则需要较大外力才能解理。D_(b)越大,矿物亲水性越强,(112)面亲水性比(001)面更强。表面活性氧和钙质点及其断裂键差异可解释表面电性及吸附性的各向异性。表面Ca质点断裂键数多,反应活性高,与药剂结合能高且构型稳定,(001)面具有更高活性氧原子密度,可能通过氢键作用结合更多的OH^(-),导致更高的负表面电势。通过优化磨矿过程中的影响参数,可调控颗粒的高活性晶面暴露情况及颗粒形貌,暴露高活性的(101)面和(112)面,减少(001)面的暴露比例,强化白钨矿的浮选行为。研究结果对于强化白钨矿的浮选分离回收具有重要的指导价值。 展开更多
关键词 白钨矿 表面断裂键 解理面 表面 润湿性 表面电性 浮选 磨矿
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Anisotropic surface broken bond properties and wettability of calcite and fluorite crystals 被引量:19
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作者 高志勇 孙伟 +1 位作者 胡岳华 刘晓文 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2012年第5期1203-1208,共6页
Anisotropic surface broken bond densities of six different surfaces of calcite and three surfaces of fluorite were calculated. In terms of the calculated results, the commonly exposed surfaces of the two minerals were... Anisotropic surface broken bond densities of six different surfaces of calcite and three surfaces of fluorite were calculated. In terms of the calculated results, the commonly exposed surfaces of the two minerals were predicted and the relations between surface broken bonds densities and surface energies were analyzed. Then the anisotropic wettability of the commonly exposed surfaces was studied by means of contact angle measurement. The calculation results show that the (101^-4), (213^-4)and (01 1^-8)surfaces for calcite and (111) for fluorite are the most commonly exposed surfaces and there is a good rectilinear relation between surface broken bond density and surface energy with correlation of determination (R^2) of 0.9613 and 0.9969, respectively. The anisotropic wettability of different surfaces after immersing in distilled water and sodium oleate solutions at different concentrations can be explained by anisotropic surface broken bond densities and active Ca sites densities, respectively. 展开更多
关键词 CALCITE FLUORITE surface broken bonds CLEAVAGE surface energy contact angle WETTABILITY
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Mineral cleavage nature and surface energy: Anisotropic surface broken bonds consideration 被引量:18
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作者 高志勇 孙伟 胡岳华 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2014年第9期2930-2937,共8页
The population of surface broken bonds of some typical sulfide, oxide and salt-type minerals which may belong to cubic, tetragonal, hexagonal, or orthorhombic system, were calculated. In terms of the calculation resul... The population of surface broken bonds of some typical sulfide, oxide and salt-type minerals which may belong to cubic, tetragonal, hexagonal, or orthorhombic system, were calculated. In terms of the calculation results, the cleavage natures of these minerals were analyzed, and the relationship between surface broken bonds density and surface energy was also established. The results show that the surface broken bonds properties could be used to predict the cleavage nature of most of minerals, and the predicted cleavage planes agree well with those reported in previous literature. Moreover, this work explored a rule that, surface broken bonds density is directly related to surface energy with determination coefficient(R2) of over 0.8, indicating that the former is a dominant factor to determine the latter. Therefore, anisotropic surface broken bonds density can be used to predict the stability of mineral surface and the reactivity of surface atoms. 展开更多
关键词 surface broken bonds CLEAVAGE surface energy pyrite SPHALERITE CASSITERITE rutile HEMATITE
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