| REVIEW PAPER |
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| Effects of Aggregate Species and Quality on the Properties of Pervious Concrete: a Review |
| WANG Yiren, WANG Dongmin
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| School of Chemical & Environmental Engineering, China University of Mining and Technology, Beijing 100083 |
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Abstract Aggregate is a raw material of pervious material, which is used to support the spatial skeleton structure of pervious material. The shape, particle size range and distribution, type and quality have an important impact on strength, water permeability and durability of the material. In view of aggregate type and quality requirements of the pervious concrete, the basic physicochemical properties of aggregates including natural aggregate, construction waste, industrial solid waste, artificial aggregate, heat treatment bottom slag of municipal solid waste and sand-based fine aggregate,which are used in pervious concretes are introduced. The inf-luence of those aggregate on strength, permeability, durability and water purification of pervious concretes are summarized emphatically. Finally, it is proposed that the pervious concrete can enhance the water-permeable aging and durability through the quality control of aggregate, and the scope and capacity of co-disposal of wastes should be expanded through the pervious concrete industry in the future.
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Published: 10 September 2017
Online: 2018-05-07
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1 住房城乡建设部.海绵城市建设技术指南[M]. 北京:中华人民共和国住房和城乡建设部,2014:4.
2 Kevern J T, Wang K, Schaefer V R. Effect of coarse aggregate on the freeze-thaw durability of pervious concrete[J]. J Mater Civil Eng,2010,22(5):469.
3 Jain A K, Chouhan J S. Effect of shape of aggregate on compressive strength and permeability properties of pervious concrete[J].Int J Adv Eng Res Stud,2011,1(1):120.
4 Chandrappa A K, Biligiri K P. Pervious concrete as a sustainable pavement material-Research findings and future prospects: A state-of-the-art review[J]. Constr Building Mater,2016,111:262.
5 Putman B J, Neptune A I. Comparison of test specimen preparation techniques for pervious concrete pavements[J]. Constr Building Mater,2011,25(25):3480.
6 Yu Yongxia. Application of porous concrete sponge city construction[D]. Huainan: Anhui University of Science and Technology,2016(in Chinese).
于永霞. 透水混凝土在海绵城市建设中的应用研究[D]. 淮南:安徽理工大学,2016.
7 Cui Y, Gary P, Lisle T E, et al. Experimental study on properties of pervious concrete pavement materials[J]. Cem Concr Res,2003,33(3):381.
8 Shu X, Huang B, Wu H, et al. Performance comparison of laboratory and field produced pervious concrete mixtures[J]. Constr Buil-ding Mater,2011,25(8):3187.
9 Sata V, Wongsa A, Chindaprasirt P. Properties of pervious geopolymer concrete using recycled aggregates[J]. Constr Building Mater,2013,42(9):33.
10 Xue Jun, Liu Jun, Ji Mingxu, et al. Preparation of water permeable brick using recycle building concrete as aggregate[J]. J Wuhan Institute of Technology,2012,34(5):51(in Chinese).
薛俊, 刘军, 季明旭, 等. 以再生建筑混凝土为骨料制备透水砖[J]. 武汉工程大学学报,2012,34(5):51.
11 C′osic′ K, Korat L, Ducman V. Influence of aggregate type and size on properties of pervious concrete[J]. Constr Building Mater,2015,78:69.
12 Yang S F, Chiu W T, Wang T M, et al. Asphalt concrete and permeable brick produced from incineration ash using thermal plasma technology[J]. J Environ Eng Management,2009,19(4):221.
13 Ding Liang, Chang Jun. Use of curing carbonation steel slag in water-permeable brick[J]. Brick Tile,2010(7):12(in Chinese).
丁亮,常钧. 碳酸化养护钢渣制备透水砖[J].砖瓦,2010(7):12.
14 Xu Dayong, Cai Changfeng, Xu Jianping, et al. Preparation and clear water immersion test of porous sawdust concrete[J]. J Chongqing University of Technology:Nat Sci,2013,27(11):42(in Chnese).
徐大勇,蔡昌凤,徐建平,等.多孔木屑混凝土的制备及其清水浸泡对对水质的影响[J]. 重庆理工大学学报:自然科学,2013,27(11):42.
14 Zaetang Y, Wongsa A, Sata V, et al. Use of lightweight aggregates in pervious concrete[J]. Constr Building Mater,2013,48(11):585.
15 Wu M H, Lin C L, Huang W C, et al. Characteristics of pervious concrete using incineration bottom ash in place of sandstone graded material[J]. Constr Building Mater,2016,111:618.
17 Wang Y, Li C, Wang A, et al. Technology of permeable brick using MSW RDF gasification slag[J]. Energy Education Sci Technol Part A: Energy Sci Res,2014,32(2):1129.
18 Qin S, Jia Y, Wang Z, et al. Composition used for high strength and watertight concrete: EP, EP2578551[P]. 2013.
19 ASTM Committee on Standards. ASTM C33/C33M-13 ASTM Standard Specification for Concrete Aggregates[S]. United States of America: ASTM International,2013:1.
20 ASTM Committee on Standards. ASTM D448-12 ASTM Standard Classification for Sizes of Aggregate for Road and Bridge Construction[S].United States of America: ASTM International,2012:1.
21 GB/T 14685-2011, 建设用卵石、碎石[S]. 北京:中国标准出版社,2011.
22 Chen Zhenyuan. Study on the resistance characteristics inside large grain media[D].Taiwan,China: Sun Yat-sen University,2001(in Chinese).
Chen Zhenyuan. Study on the resistance characteristics inside large grain media[D].中国台湾:中山大学,2001.
23 Yang Shanshun. Environmentally friendly concrete—Permeable concrete[J]. Guangdong Building Mater,2004(10):36(in Chinese).
杨善顺. 环境友好型混凝土——透水性混凝土[J]. 广东建材,2004(10):36.
24 GB/T 25177-2010, 混凝土用再生粗骨料[S]. 北京: 中国标准出版社,2010.
25 Japanese Industrial Standards Committee. JIS A5021:2005 Recycled aggregate for concrete-class H[S]. Japan: Japanese Industrial Standard Committee,2005.
26 Japanese Industrial Standards Committee. JIS A5022:2006 Recycled aggregate for concrete-class M[S]. Japan: Japanese Industrial Standard Committee,2006.
27 Japanese Industrial Standards Committee. JIS A5023:2007 Recycled aggregate for concrete-class L[S]. Japan: Japanese Industrial Stan-dard Committee,2007.
28 Deutsches Institut fǖr Normung. DIN 4226-100:2002-02 Aggregate for mortar and concrete[S]. Germany: The German Institute for Standardization,2002.
29 RILEM Recommendation. Specifications for concrete with recycled aggregates[J]. Mater Struct,1994,27(9):557.
30 Ying L, Rong Y J, Yi L J. Study on recycled aggregate water-permeable concrete[C]// International Conference on Electric Techno-logy and Civil Engineering. IEEE,2011:6236.
31 Yan H D, Huang G H. Study on pervious road brick prepared by recycled aggregate concrete[J]. Key Eng Mater,2006,302-303:321.
32 Gaedicke C, Torres A, Huynh K C T, et al. A method to correlate splitting tensile strength and compressive strength of pervious concrete cylinders and cores[J]. Constr Building Mater,2016,125:271.
33 Güneyisi E, Gesogˇlu M, Kareem Q, et al. Effect of different substitution of natural aggregate by recycled aggregate on performance characteristics of pervious concrete[J]. Mater Struct,2016,49(1-2):521.
34 Park S B, Lee B J, Lee J, et al. A study on the seawater purification characteristics of water-permeable concrete using recycled aggregate[J]. Resources Conservation Recycling,2010,54(10):658.
35 Sata V, Wongsa A, Chindaprasirt P. Properties of pervious geopolymer concrete using recycled aggregates[J]. Constr Building Mater,2013,42(9):33.
36 Barnhouse P W, Srubar W V. Material characterization and hydraulic conductivity modeling of macroporous recycled-aggregate pervious concrete[J]. Constr Building Mater,2016,110:89.
37 Rizvi R, Tighe S, Norris J, et al. Incorporating recycled concrete aggregate in pervious concrete pavements[C]// 2009 Annual Confe-rence & Exhibition of the Transportation Association of Canada-transportation in a Climate of Change.2009:1.
38 Yan Handong. Pervious pavement bricks made of recycled aggregate concrete[J]. J Huaqiao University:Nat Sci,2006,27(1):54(in Chinese).
严捍东. 再生骨料混凝土配制透水路面砖[J]. 华侨大学学报:自然科学版,2006,27(1):54.
39 Chen Ying, Huang Haihua, Yan Handong. Property of recycled aggregate water-permeable concrete and application in pavement brick[J]. Architecture Technol,2005,36(1):32(in Chinese).
陈莹, 黄海华, 严捍东. 再生骨料透水性混凝土特性及其在路面砖中的应用[J]. 建筑技术,2005,36(1):32.
40 Mitchell M R, Link R E, Li J, et al. Microanalysis of recycled coarse aggregate and properties of No-fines pervious recycled concrete[J]. J Testing Evaluation,2011,39(5):103417.
41 Liu Fuye. Studies on ecological pervious brick by making use of construction waste[D].Guangzhou: Guangdong University of Techno-logy,2012(in Chinese).
刘富业. 利用建筑垃圾制作生态透水砖研究[D]. 广州:广东工业大学,2012.
42 Gao Mengyan. The experimental study of recycled aggregate per-vious concrete[D]. Xining: Qinghai University,2014(in Chinese).
高梦芫. 再生骨料透水性混凝土试验研究[D]. 西宁:青海大学,2014.
43 Guo P, Tang B, Zhu H, et al. Pavement performance of steel slag pervious concrete[C]// International Conference on Transportation Engineering. ICTE,2011:1654.
44 Zhou Jia, Ni Wen, Li Jianping. Development of cement-free steel slag pervious brick[J]. Non-Metallic Mines,2004(6):16(in Chinese).
周佳,倪文,李建平.无水泥钢渣路面透水砖研制[J].非金属矿,2004(6):16.
45 杨刚, 王幼琴, 张健,等. 一种钢渣透水混凝土的制备方法:中国,102145982A[P].2011.
46 Zhao Yabing, Zhang Xinpeng, Wu Nan, et al. Water permeable property of uncalcined brick prepared with coal gangue[J]. Bull Chin Ceram Soc,2014(12):3255(in Chinese).
赵亚兵, 张新朋, 吴楠,等. 环保免烧结煤矸石透水砖的制备方法及其透水性能[J]. 硅酸盐通报,2014(12):3255.
47 Zhang Yuqing. Experimental study on strength of coal gangue aggregate permeable ecological concrete[J]. Sichuan Building Sci,2015,41(1):237(in Chinese).
张玉庆. 煤矸石集料透水性生态混凝土的强度试验研究[J]. 四川建筑科学研究,2015,41(1):237.
48 Cao Luchun, Zhang Zhijun. Research on water permeability and compressive strength of coal gangue pervious concrete[J]. Fujian Building Mater,2013,22(7):34(in Chinese).
曹露春, 张志军. 煤矸石生态混凝土透水性与抗压强度研究[J]. 福建建材,2013,22(7):34.
49 Zhang Yangang. Study on preparation and properties of porous concrete with volcanic slag[D]. Beijing: North China University of Technology,2011(in Chinese).
张燕刚. 火山渣透水混凝土的制备及其性能研究[D]. 北京:北方工业大学,2011.
50 Zhang Xiaolong, Zhang Cheng, Gao Liangsheng, et al. Preparation of slag-based permeable material and adsorption effect in dye wastewater[J]. Fly Ash Comprehensive Utilization,2010(4):27(in Chinese).
张小龙, 张诚, 高亮升,等. 炉渣基透水材料的制备及其在染料废水中的吸附作用[J]. 粉煤灰综合利用,2010(4):27.
51 Yu Pengpeng, Rao Zongwang, Deng Jianyong, et al. Analysis and characterization of physical and chemical property of cinder aggregate for water permeable brick[J]. New Building Mater,2010,37(9):36(in Chinese).
虞澎澎, 饶宗旺, 邓坚勇,等. 透水砖骨料煤渣的理化性质分析与表征[J]. 新型建筑材料,2010,37(9):36.
52 何兆芳, 马兰, 王学友. 一种铁尾矿石双色组合层透水混凝土及其制备方法:中国,103342513A[P].2013.
53 Meng Xiangchun,He Zhaofang,Zhao Guohui. Experimental study on the green ecological pervious concrete[J]. Sichuan Building Sci,2015,41(5):101(in Chinese).
孟祥春, 何兆芳, 赵国辉. 绿色生态透水混凝土的试验研究[J]. 四川建筑科学研究,2015,41(5):101.
54 Yeih W, Fu T C, Chang J J, et al. Properties of pervious concrete made with air-cooling electric arc furnace slag as aggregates[J]. Constr Building Mater,2015,93:737.
55 Bogas J A, Cunha D. Non-structural lightweight concrete with volcanic scoria aggregates for lightweight fill in building′s floors[J].2017,135:151.
56 Nan Feng, Jin Ruiling, Wu Yonghua, et al. Study of lightweight aggregate pervious concrete[J]. China Concr Cem Products,2012(3):22(in Chinese).
南峰, 金瑞灵, 伍勇华,等. 轻骨料透水混凝土的研究[J]. 混凝土与水泥制品,2012(3):22.
57 Zheng Jihui. Experimental study on performance of shale ceramsite permeable concrete[J]. J Luoyang Institute of Science and Technology:Nat Sci Ed,2016,26(4):1(in Chinese).
郑吉卉. 页岩陶粒透水混凝土的性能研究[J]. 洛阳理工学院学报:自然科学版,2016,26(4):1.
58 Liu Yangyang. The resource application of waste mud in the rainfall penetration and storage systems of green building[D]. Nanjing:Nanjing Tech University,2015(in Chinese).
刘洋洋. 废弃泥在绿色建筑雨水渗蓄系统中的资源化应用[D]. 南京工业大学,2015.
59 Wu Haofeng. Preparation of green ceramic pervious concrete research[D]. Changsha: Central South University,2009(in Chinese).
巫昊峰.绿色陶粒及其透水混凝土研究[D].长沙:中南大学,2009.
60 Li Zhenqing, Shan Mingyang. The use of heavy metal-containing sludge to burn light aggregate and applied to pervious concrete pavement[J]. Building Block Block Building,2007(1):36(in Chinese).
李振卿, 单明阳. 用含重金属的污泥烧制轻骨料并应用于透水混凝土路面砖[J]. 建筑砌块与砌块建筑,2007(1):36.
61 Liang Xiuqin. Study on experimental properties of ceramic skeleton permeability concrete [J]. Concrete,2012(4):134(in Chinese).
梁秀琴. 陶粒骨架透水混凝土性能试验研究[J]. 混凝土,2012(4):134.
62 中华人民共和国环境保护部. 国家危险废物名录[Z]. 2016-06-14.
63 Chandler A J, Group I A W. Municipal solid waste incinerator residues[M]. Elsevier,1997.
64 María G M Elipe, Susana López-Querol. Review aeolian sands: Characterization, options of improvement and possible employment in construction—The state-of-the-art[J]. Constr Building Mater,2014,73:728.
65 Wang Pingping,Xu Xiangzhou. Research on preparation and performance optimization of sand-based permeable bricks[J]. New Building Mater,2013(8):44(in Chinese).
王萍萍,徐向舟. 砂基透水砖的制备及性能优化研究[J]. 新型建筑材料,2013(8):44.
66 Yu Weirong, Qin Weizu. Preliminary research on preparation and properties of epoxy resin micro-porous permeable material[J]. New Building Mater,2008,35(10):63(in Chinese).
于伟蓉, 覃维祖. 环氧树脂微孔透水材料的制备和性能初步研究[J].新型建筑材料,2008,35(10):63.
67 Zhang Weimin,Li Lihong,Zhu Yonggang, et al. Study on the water-permeable materials based on aeolian sand[J]. Thermosetting Resin,2012(6):57(in Chinese).
张伟民, 李丽红, 朱永刚,等. 砂基透水材料的研究[J]. 热固性树脂,2012(6):57.
68 Qin S, Jia Y, Wang Z, et al. Composition used for high-strength and impermeable concrete: US, US8652250[P]. 2014.
69 郑凤莲. 一种高强高透水性混凝土及其制备方法:中国, CN 101182172 A[P]. 2008-05-21.
70 Wang Ping, Li Guochang. Study on preparation and performances of water permeable brick from desert sand[J]. Non-Metallic Mines,2010,33(5):61(in Chinese).
王萍, 李国昌. 沙漠沙透水砖的制备及性能研究[J].非金属矿,2010,33(5):61.
71 Chen Ping, Deng Xiangyun, Dong Lei, et al. Research on preparation and properties of inorganic cementitious desert greening bricks[J]. J Tianjin Normal University:Nat Sci Ed,2009,29(4):38(in Chinese).
陈平, 邓湘云, 董磊,等. 无机胶凝沙漠绿化砖制备及其性质的研究[J]. 天津师范大学学报:自然科学版,2009,29(4):38.
72 Li Ting, Deng Xiangyun, Li Jianbao. Study on the influence of the crystal aluminum chloride on the mechanical properties of the green chemical sand-fixing brick[J]. J Ceramics,2009,30(4):452(in Chinese).
李婷, 邓湘云, 李建保. 结晶氯化铝对沙漠绿化砖机械性能的影响研究[J]. 陶瓷学报,2009,30(4):452.
73 Berlineanu A, Wang Xuezhi. Preparation and application of new-type eco-environmental permeable mortar[J]. New Chem Mater,2005,33(3):66(in Chinese).
Berlineanu A,王学智. 新型生态环保透水砂浆的制备和应用[J].化工新型材料,2005,33(3):66. |
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2017, Vol. 31 
