不同粗骨料对膏体强度性能的影响及配比优化  被引量：8

作　　者：王洪江[1,2] 杨亚楠 王小林[1,2] WANG Hongjiang;YANG Yanan;WANG Xiaolin(School of Civil and Resource Engineering,University of Science and Technology Beijing,Beijing 100083,China;Key Laboratory of Ministry of Education for Efficient Mining and Safety of Metal Mines,Beijing 100083,China)

机构地区：[1]北京科技大学土木与资源工程学院,北京100083 [2]金属矿山高效开采与安全教育部重点实验室,北京100083

出　　处：《金属矿山》2022年第1期120-127,共8页Metal Mine

基　　金：国家自然科学基金项目(编号:51834001)。

摘　　要：云南某铅锌矿水淬渣产量逐渐降低,难以满足充填需求,亟需寻求新型粗骨料。以该矿全尾砂、机制砂、水淬渣为试验材料,采用正交设计法,研究料浆质量浓度、灰砂比、粗骨料含量以及粗骨料种类对膏体抗压强度的影响。基于最大密度曲线理论和贝雷法,从密实度和骨架结构两方面对混合物料级配进行评价,并对全尾—机制砂进行物料配比优化。研究表明:料浆质量浓度和灰砂比是抗压强度的主要影响因素,粗骨料含量的影响作用较小;相同条件下,全尾—水淬渣膏体抗压强度最大,全尾砂膏体次之,全尾—机制砂膏体抗压强度最小;全尾—机制砂膏体级配不良,密实度小于全尾—水淬渣和全尾砂膏体,且没有形成稳定骨架,再加上机制砂含泥量较高,导致全尾—机制砂膏体抗压强度最小。物料配比优化后,机制砂添加量为42.78%,全尾砂添加量为57.22%,达到较大密实度的同时又形成了稳定的骨架结构,有利于提高膏体抗压强度。The output of granulated slag of a lead-zinc mine in Yunnan is gradually decreasing,and it is difficult to meet the filling demand.Therefore,it is urgent to find a new type of coarse aggregate.Using the unclassified tailings,manufactured sand and granulated slag of the mine as experimental materials,the orthogonal design method was used to study the influence of slurry mass concentration,cement-aggregate ratio,coarse aggregate content and coarse aggregate types on the compressive strength of the paste.Based on the maximum density curve theory and Bailey method,the mixture gradation is evaluated from the aspects of density and skeleton structure,and the material ratio of the unclassified tailing-manufactured sand is optimized.The results show that the slurry mass concentration and the cement-aggregate ratio are the main influencing factors of the compressive strength,and the influence of the coarse aggregate content is small.Under the same conditions,the compressive strength of the unclassified tailing-granulated slag paste is the largest,followed by unclassified tailing paste,and the unclassified tailing-manufactured sand paste has the lowest compressive strength.The gradation of the unclassified tailing-manufactured sand paste is poor,and smaller density,unstable skeleton structure,and higher mud content together lead to the smallest compressive strength of the unclassified tailing-manufactured sand paste.After the material ratio is optimized,the amount of manufactured sand added is 42.78%,and the amount of full tailings added is 57.22%,which achieves a large density while forming a stable skeleton structure,which is conducive to the improvement of the compressive strength of the paste.

关 键 词：充填 粗骨料 抗压强度 膏体 密实度 骨架结构 

分 类 号：TD853[矿业工程—金属矿开采]