[1]杨迎春,毛宇光.不同细度铁尾矿粉对水泥基材料性能的影响[J].西安建筑科技大学学报(自然科学版),2020,52(02):241-247.[doi:10.15986/j.1006-7930.2020.02.013]
 YANG Yingchun,MAO Yuguang.Influence of iron tailing powder of different fineness on properties of cement-based material[J].J. Xi’an Univ. of Arch. & Tech.(Natural Science Edition),2020,52(02):241-247.[doi:10.15986/j.1006-7930.2020.02.013]
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不同细度铁尾矿粉对水泥基材料性能的影响()
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西安建筑科技大学学报(自然科学版)[ISSN:1006-7930/CN:61-1295/TU]

卷:
52
期数:
2020年02期
页码:
241-247
栏目:
出版日期:
2020-04-25

文章信息/Info

Title:
Influence of iron tailing powder of different fineness on properties of cement-based material
文章编号:
1006-7930(2020)02-0241-07
作者:
杨迎春1毛宇光2
(1.安徽农业大学 工学院,安徽 合肥 230036 2.湖南大学 土木工程学院,湖南 长沙 410000)
Author(s):
YANG Yingchun1MAO Yuguang2
(1.College of Engineering,Anhui Agricultural University,Hefei 230036,China; 2.College of Civil Engineering,Hunan University,Changsha 410000,China)
关键词:
铁尾矿粉 微观结构 填充效果 力学性能 水化产物
Keywords:
iron tailing powder microstructures filling effect mechanical properties hydration products
分类号:
TU525
DOI:
10.15986/j.1006-7930.2020.02.013
文献标志码:
A
摘要:
本文研究了掺入四种平均粒径分别为110 μm、90 μm、45 μm、25 μm的铁尾矿粉(ITP1、ITP2、ITP3、ITP4)的水泥基材料的力学性能、微观结构和水化产物.研究结果表明,当铁尾矿粉以5%的质量百分比替代水泥时,掺加ITP1、ITP2、ITP3、ITP4的砂浆28 d抗压强度与纯水泥砂浆相比分别提高了11%,3%,13%和29%.当铁尾矿粉替代水泥的质量百分比大于5%时,随着铁尾矿粉掺量的增加,掺四种不同细度铁尾矿粉的砂浆强度都会逐渐降低.为了保证铁尾矿粉砂浆的强度不低于纯水泥砂浆强度,ITP1、ITP2、ITP3、ITP4替代水泥的质量百分比分别不应超过10%、5%、10% 和20%.此外,通过背散射扫描电镜观察到,铁尾矿粉在28 d龄期时虽未发生明显水化,但较细的铁尾矿粉末与水泥临界区生成了少量胶凝成分C-S-H,说明机械研磨对铁尾粉火山灰活性有少许激发作用.扫描电镜结果显示,铁尾矿粉的细度越细,其填充效果越好,掺少量铁尾矿粉的水泥基材料力学性能的提高主要归因于铁尾矿粉的填充效果
Abstract:
In this paper, the mechanical properties, microstructures and hydration products of cement-based materials containing four kinds of iron tailings powder(ITP1, ITP2, ITP3, ITP4)with average diameters of 110 μm, 90 μm, 45 μm, 25 μm were studied. Results show that the 28-day compressive strength of mortars with ITP1, ITP2, ITP3 and ITP4 were 11%, 3%, 13% and 29% is higher than that of pure cement mortar respectively when the cement was replaced by 5% iron tailing powder in mass. Meanwhile, the addition of iron tailing powder more than 5% would turn to decrease the mechanical properties gradually, regardless of the sizes of iron tailing powder. In order to ensure that the strength of mortars containing ITP1, ITP2, ITP3 and ITP4 were not lower than that of pure cement mortar, the respective maximum replacement levels of ITP1, ITP2, ITP3 and ITP4 were 10%、5%、10% and 20% respectively. In addition, a small amount of cementitious C-S-H was formed in the critical zone between fine iron tailings powder and cement, which indicated that mechanical grinding has a little stimulating effect on the pozzolanic activity of iron tailings. The improving of the mechanical properties of cement-based material containing small amount iron tailing powder could be attributed to the filling effect, because the better filling effect could be observed by SEM in the mortar containing finer the iron tailing powder

参考文献/References:

[1] OSINUBI K, YOHANNA P, EBEREMU A.O. Cement modification of tropical black clay usingiron ore tailings as admixture [J]. Transportation Geotechnics, 2015, 5:35-49.
[2] 李玉凤,包景岭,张锦瑞.铁尾矿资源开发利用现状分析[J].中国矿业,2015(24):77-81.
LI Y, BAO J, ZHANG J. Status analysis of iron tailings comprehensive utilization[J].China Mining Magazine, 2015(24):77-81.
[3] ZHANG S, XUE X, LIU X,et al. Current situation and comprehensive utilization of iron ore tailing resources[J]. Journal of Mining Science, 2006, 42:403-408.
[4] DAS S, KUMAR S, RAMACHANDRARAO P. Exploitation of iron ore tailing for the development of ceramic tiles [J].Waste Management, 2000, 20:725-729.
[5] 邓文,江登榜,杨波,等. 我国铁尾矿综合利用现状和存在的问题[J].现代矿业,2012, 28(9):1-3.
DENG W, JIANG D, YANG B, et al. Comprehensive utilization status and existing problems of of iron tailings in China[J].Modern Mining,2012, 28(9):1-3.
[6] MATSCHULLAT J, BORBA R, DESCHAMPS E. Human and environmental contamination in the Iron Quadrangle[J].Applied Geochemistry,2000,15:181-190.
[7] YELLISHETTY M, KARPE V, REDDY E, et al. Reuse of iron ore mineral wastes in civil engineering constructions: a case study[J]. Resources, Conservation & Recycling, 2008, 52(11):1283-1289.
[8] ZHAO S, FAN J, SUN W. Utilization of iron ore tailings as fine aggregate in ultra-high performance concrete[J].Construction and Building Materials,2014,50:540-548.
[9] HUANG X, RANADA R, NI W. Development of green engineered cementitious composites using iron ore tailing as aggregates[J]. Construction and Building Materials, 2013,44:757-764.
[10]张玉琢,周梅,刘凯. 铁尾矿砂用于混凝土细集料的试验研究[J].非金属矿,2016,39(6):57-66.
ZHANG Y, ZHOU M, LIU K. Experimental Research on Iron Tailings as Concrete Fine Aggregate[J]. Non-Metallic Mines,2016,39(6):57-66.
[11]ORITOLA S, SALEH A L. Performance of Iron ore tailings as partial replacement for sand in concrete[J].Applied Mechanics and Materials,2015,735:122-127.
[12]张建林,韩显松.铁尾矿混凝土应用特性试验研究[J].西安科技大学学报(自然科学版),2015,3(35):381-385.
ZHANG J, HAN X.Experimental study on the iron tailings concrete application characteristics[J].Journal of Xi’an University of Science and Technology(Natural Science Edition),2015,3(35):381-385.
[13]SHETTIMA A, HUSSIN M, AHMAD Y, et al. Evaluation of iron ore tailing as replacement for fine aggregate in concrete[J]. Construction and Building Materials, 2016,120: 72-79.
[14]ZHAO S, FAN J, SUN W. Utilization of iron ore tailings as fine aggregate in ultra-high performance concrete[J]. Construction and Building Materials, 2014, 50: 540-548.
[15]于淼,倪文,刘佳. 磨细铁尾矿粉粒度分布分形维数的研究[J]. 武汉理工大学学报.2013,35(2):26-31.
YU M, NI W, LIU J. Research on the Particle Size Distribution Fractal Dimension of Iron Tailings Powder[J].Journal of Wuhan University of Technology, 2013,35(2):26-31.
[16]王宏霞,叶家元,张文生,等. 铁尾矿粉作为掺合料制备高强混凝土的研究[J].混凝土,2015,7:89-91.
WANG H, YE J, ZHANG W, et al.Research on high strength concrete made with iron tailing powder[J].Concrete,2015,7:89-91.
[17]朴春爱,王栋民,张力冉,等. 铁尾矿粉对混凝土耐久性能的影响[J].硅酸盐通报,2016,35(10):3295-3300.
PIAO C, WANG D, ZHANG L, et al. Effect of iron ore tailings powder on concrete durability[J].Bulletin of The ChineseCeramic Society,2016,35(10):3295-3300.
[18]HUANG X, RANADE R, VICTOR C, et al. Feasibility study of developing green ECC using iron ore tailings powder as cement replacement[J]. Journal of Materials in Civil Engineering,2013,25:923-931.
[19]HAN F, LI L, SONG S, et al. Early-age hydration characteristics of composite binder containing iron tailing powder[J]. Powder Technology, 2017,315:322-331.
[20]CHENG Y, HUANG F, LI W, et al. Test research on the effects of mechanochemically activated iron tailings on the compressive strength of concrete[J]. Construction and Building Materials, 2016, 118:164-170.

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备注/Memo

备注/Memo:
收稿日期:2019-07-08 修改稿日期:2020-03-25
基金项目:安徽高校自然科学研究基金重点项目(KJ2019A0171); 安徽省教学研究基金项目(2018jyxm0865)
第一作者:杨迎春(1983-),女,硕士,讲师,主要从事新型建筑材料研究.E-mai:yangyingchun1983@163.com
更新日期/Last Update: 2020-04-25