《复合材料学报》优先在线发表论文。
摘 要:针对磷石膏堆存所产生的环境污染问题和目前矿山充填材料存在充填成本高、水泥等固体物料耗量大、充填体无法结顶等问题,本文通过正交试验极差分析、方差分析、多元非线性回归分析以及数据可视化手段进行配比优化,制备了一种新型凝水膨胀充填复合材料,并采用XRD、SEM等微观分析手段对其形成机制进行了研究。该材料主要由半水磷石膏(HPG)、非晶相凝水剂(SAP)、气相引入剂(GPA)、表面疏水剂(HA)四种物料构成,形成的充填体为固、液、气三相,突出特点是在非固相体积率(Non-solid volume rate,N)87.6%条件下可凝固,3d抗压强度可达1.6 MPa、膨胀率(Expansive rate,E)可达11%以上、在水中浸泡90d其抗压强度基本稳定。微观分析结果表明:非晶相凝水剂在其中的作用是形成凝水膨胀充填复合材料非晶相凝水颗粒,气相引入剂的主要作用是在充填体内引入气相空腔,表面疏水剂主要用于在充填体表面形成疏水效应,使得充填体具备长期耐水性能。
关键词:半水磷石膏;正交试验;复合外加剂;多元非线性回归分析;3D数据可视化
Abstract: In view of the environmental pollution problems caused by the piling up of phosphogypsum and the problems of high filling cost, large amount of cement or other solid materials, and the filling body is unable to contact the top, therefore, a new type of complex phase condensate expansion was prepared by adding compound admixture to the filling material of hemihydrate phosphogypsum (HPG). The filling material was optimized by orthogonal test range analysis, variance analysis, multivariate nonlinear regression analysis and data visualization, its formation mechanism was also studied by means of microscopic analysis such as XRD and SEM and so on. The filling composite material is mainly composed of four kinds of materials, namely HPG, amorphous phase condensate (SAP), gas phase introduction agent (GPA) and surface hydrophobicity (HA). The filling body is three-phase with solid, liquid and gas. The prominent feature is solidifying under the condition of non-solid volume rate of 87.6%, the compressive strength of 3d can reach to 1.6MPa, the expansive rate is above 11%, and the compressive strength is basically stable under the condition of soaking in water for 90 days. The result of microscopic analysis shows that the effect of the SAP is to form the amorphous phase condensate particles, which is a kind of the complex condensate filling material. The main function of the GPA is to introduce the gas phase cavity in the filling body, and the HA is mainly used to form the hydrophobic effect on the surface of the filling body, so that the filling body can be resistant to water for a long time.
Keywords: hemihydrate phosphogypsum; orthogonal test; composite admixture; multivariate nonlinear regression analysis; 3D data visualization
作者:兰文涛等,北京科技大学 土木与资源工程学院,北京
通讯作者:吴爱祥,北京科技大学 土木与资源工程学院,北京
全文详见中国知网学术期刊优先数字出版。
来源:CSCM_OFFICE 中国复合材料学会
原文链接:http://mp.weixin.qq.com/s?__biz=MjM5MTA2NTk1Nw==&mid=2654408292&idx=3&sn=04f864f3574d3594120aa8fe4911e8c1&scene=0#wechat_redirect
版权声明:除非特别注明,本站所载内容来源于互联网、微信公众号等公开渠道,不代表本站观点,仅供参考、交流、公益传播之目的。转载的稿件版权归原作者或机构所有,如有侵权,请联系删除。
电话:(010)86409582
邮箱:kejie@scimall.org.cn