Inorganic Chemicals Industry >
Study on performance of concrete with high-Mg phosphate tailing as mineral admixture
Received date: 2023-03-16
Online published: 2024-01-18
High-Mg phosphate tailing is a solid waste produced in the reverse flotation process of phosphate rock.The main mineral phase is dolomite,containing a small amount of fluorapatite and quartz.The phosphate tailing was dried and ground to produce phosphate tailing powder.The particle size distribution and toxicity of phosphate tailing powder were analyzed,and the related performance indexes were determined according to GB/T 51003—2014“Technical Specification for Application of Mineral Admixtures.”Concretes with different strength grades of C30,C40,C50 and C60 were prepared using cement,phosphate tailing powder and fly ash as gel materials.Working and mechanical properties of concrete were measured,and mineral composition of cement slurry with phosphate tailing powder at different hydration ages was analyzed.The results showed that the average particle size D90 of the phosphate tailing was decreased from 133.1 μm to 63.4 μm after drying.The firing loss of phosphate tailing powder was 39%,the 28 d activity index was 70%,and the methylene blue value was less than 1.4.The fluidity ratio of colloidal sand was greater than 100%.When 10% of the total gel material was added with phosphate tailing powder,the slump of C60 concrete was 230 mm,the strength of 28 d was 64.1 MPa,and the strength of 90 d was 78.6 MPa.At the curing age of 90 d,the new mineral phase hydrotalcite appeared in the cement hardening body mixed with phosphate tailing powder,which was conducive to the strength growth of concrete in the later stage.Phosphorus tail powder could be used as mineral admixture to prepare concrete.
JIANG Lilong , LI Jianqiu , YANG Lin , ZHANG Qinggang . Study on performance of concrete with high-Mg phosphate tailing as mineral admixture[J]. Inorganic Chemicals Industry, 2024 , 56(1) : 90 -95 . DOI: 10.19964/j.issn.1006-4990.2023-0145
| 1 | MAO Song, ZHANG Qin.Mineralogical characteristics of phosphate tailings for comprehensive utilization[J].Advances in Civil Engineering,2021,2021:1-13. |
| 2 | 陈佳伟.高镁磷尾矿的综合利用试验研究[D].武汉:武汉工程大学,2019. |
| CHEN Jiawei.Study on the comprehensive utilization of phosphate tailings[D].Wuhan:Wuhan Institute of Technology,2019. | |
| 3 | ZHOU Keqing, ZHOU Qianqian, GONG Kaili,et al.Waste-to-resource strategy to fabricate environmentally benign flame retardants from waste phosphorus tailings[J].Composites Communications,2020,19:173-176. |
| 4 | 张豪.高镁磷尾矿煅烧与应用的研究[D].武汉:武汉工程大学,2022. |
| ZHANG Hao.Research on calcination and application of high magnesium phosphorus tailings[D].Wuhan:Wuhan Institute of Technology,2022. | |
| 5 | ZHENG Keren, ZHOU Jin, GBOZEE M.Influences of phosphate tailings on hydration and properties of Portland cement[J].Construction and Building Materials,2015,98:593-601. |
| 6 | 张少华,卢都友,徐江涛,等.白云石微粉对水泥早期水化性能的影响及其机制[J].南京工业大学学报(自然科学版),2017,39(4):60-65,78. |
| ZHANG Shaohua, LU Duyou, XU Jiangtao,et al.Effects of dolomite powders on the early hydration properties of blend cement and its mechanism[J].Journal of Nanjing Tech University(Natural Science Edition),2017,39(4):60-65,78. | |
| 7 | 黄法礼,王振,易忠来,等.超细矿渣粉在水泥颗粒中的密实填充作用[J].硅酸盐通报,2021,40(8):2647-2652. |
| HUANG Fali, WANG Zhen, YI Zhonglai,et al.Dense filling function of superfine slag powder in cement particles[J].Bulletin of the Chinese Ceramic Society,2021,40(8):2647-2652. | |
| 8 | BRIKI Y, ZAJAC M, HAHA M BEN,et al.Impact of limestone fineness on cement hydration at early age[J].Cement and Concrete Research,2021,147:106515. |
| 9 | 范昭昂,李秋义,郭远新,等.矿粉与粉煤灰对高贝利特硫铝酸盐水泥水化和强度的影响[J].混凝土,2023(2):105-108, 113. |
| FAN Zhao′ang, LI Qiuyi, GUO Yuanxin,et al.Effect of mineral power and fly ash on hydration and strength of high-belite sulfoaluminate cement[J].Concrete,2023(2):105-108,113. | |
| 10 | 王缘,王智,秦洪一.湿法解毒铁铬渣作混凝土掺合料的性能研究[J].无机盐工业,2022,54(3):87-90. |
| WANG Yuan, WANG Zhi, QIN Hongyi.Study on properties of wet detoxification Fe-Cr slag as concrete admixture[J].Inorganic Chemicals Industry,2022,54(3):87-90. | |
| 11 | 陈杨升.矿物掺合料微细集料效应和形态效应的研究[D].广州:华南理工大学,2011. |
| CHEN Yangsheng.Studies on micro-aggregate effects and morphological effects of mineral admixture[D].Guangzhou:South China University of Technology,2011. | |
| 12 | XU Jiangtao, LU Duyou, ZHANG Shaohua,et al.Reaction mechanism of dolomite powder in Portland-dolomite cement[J].Construction and Building Materials,2021,270:121375. |
/
| 〈 |
|
〉 |