| INORGANIC MATERIALS AND CERAMIC MATRIX COMPOSITES |
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| Research Progress on the Influence of Retarders on the Setting Time and Rheological Properties of Alkali-Activated Cementitious Materials |
| ZHONG Xiaofan1, WANG Aiguo1,*, YU Lele1, LIU Kaiwei1, ZHANG Zuhua2, XU Zhijie1, SUN Daosheng1
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1 Anhui Key Laboratory of Advanced Building Materials, Anhui Jianzhu University, Hefei 230022, China
2 School of Materials Science and Engineering, Tongji University, Shanghai 201804, China |
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Abstract Alkali-activated cementitious materials are characterised by low energy consumption, high strength and good durability, and are highly valued by the global scientific and industrial community for its utilization of waste production, energy saving and carbon reduction. However, due to the wide range of raw materials used in alkali-activated cementitious materials, the quality fluctuates, resulting in more obvious variations in the performance of alkali-activated cementitious materials and the difficulty of controlling their stability, of which the regulation of the setting time is a pressing problem. The incorporation of retarders is one of the effective ways to regulate the setting time of alkali-activated cementitious materials. This paper summarises the influence of retarders on the setting and hardening and rheological properties of alkali-activated cementitious materials, clarifies the mechanism of different types of retarders on the setting of alkali-activated cementitious materials (coating, viscosity enhancement and neutralisation) and analyses the feasibility of their application, with a view to providing a theoretical basis and technical support for breaking through the technical bottleneck of large-scale engineering applications of alkali-activated cementitious materials.
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Published: 10 October 2024
Online: 2024-10-23
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| Fund:National Natural Science Foundation of China (52278236,52172013) and Excellent Scientific Research and Innovation Team of Universities in Anhui Province (2022AH010017). |
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1 Farhan K Z,Johari M,Demirboga R.Construction and Building Materials,2020,264,120276.
2 Singh N B,Middendorf B.Construction and Building Materials,2020,237(10),117455.
3 Peng J X,Huang L,Zhao Y B,et al.Advance Materials Research,2013,610-613,2120.
4 Habert G,Lacaillerie J,Roussel N.Journal of Cleaner Production,2011,19,1229.
5 Mclellan B C,Williams R P,Lay J,et al.Journal of Cleaner Production,2011,19,1080.
6 Wang A G,Wang X Y,Sun D S,et al.Materials Reports,2021,35(13),5 (in Chinese).
王爱国,王星尧,孙道胜,等.材料导报,2021,35(13),5.
7 Noushini A,Aslani F,Castel A,et al.Cement and Concrete Composites,2016,73,136.
8 Zhang P,Zheng Y X,Wang K J,et al.Composites Part B: Engineering,2018,152,79.
9 Wang A G,Zheng Y,Zhang Z H,et al.Engineering,2020,6(6),695.
10 Zhang D W,Wang D M.Materials Reports,2018,32(5),1519 (in Chinese).
张大旺,王栋民.材料导报,2018,32(5),1519.
11 Kaja A M,Lazaro A,Yu Q L.Construction and Building Materials,2018,189,1113.
12 Zunino F,Bentz D P,Castro J.Cement and Concrete Composites,2018,90,14.
13 Jiang D D,Shi C J,Zhang Z H,et al.Cement and Concrete Composites,2022,134,104795.
14 Wang A G,Zheng Y,Zhang Z H,et al.Materials Reports,2019,33(8),2552 (in Chinese).
王爱国,郑毅,张祖华,等.材料导报,2019,33(8),2552.
15 Zhu Y C,Zhang Z H,Liu Y,et al.Bulletin of the Chinese Ceramic Society,2020,39(8),2458 (in Chinese).
朱颖灿,张祖华,刘意,等.硅酸盐通报,2020,39(8),2458.
16 Si R Z,Guo S C,Dai Q L.Journal of the American Ceramic Society,2019,102(3),1479.
17 Gebregziabiher B S,Thomas R,Peethamparan S.Cement and Concrete Composites,2014,55,91.
18 Sun B,Ye G,Schutter G D.Construction and Building Materials,2022,326,126843.
19 Li N,Shi C,Zhang Z.Composites Part B: Engineering,2019,171,34.
20 Tl A,Hs A,Za A,et al.Construction and Building Materials,2020,233,117354.
21 Kumarappa D B,Peethamparan S,Ngami M.Cement and Concrete Research,2018,109,1.
22 Duxson P, Fernández-Jiménez A,Provis J L,et al.Journal of Materials Science and Technology,2007,42,2917.
23 Fernández-Jiménez A,Palomo A,Criado M.Cement and Concrete Research,2005,35(6),1204.
24 Shi C, Fernández-Jiménez A,Palomo A.Cement and Concrete Research,2011,41(7),750.
25 Rees C A,Provis J L,Lukey G C,et al.Colloids and Surfaces A,Physicochemical and Engineering Aspects,2008,318(1-3),97.
26 Chang J J.Cement and Concrete Research,2003,33(7),1005.
27 Tailby J,Mackenzie K.Cement and Concrete Research,2010,40(5),787.
28 Liu X,Li S Y,Ding Y C,et al.Journal of Building Engineering,2023,64,105694.
29 Zhang P,Gao Z,Wang J,et al.Journal of Cleaner Production,2020,270,122389.
30 Alonso M M,Gismera S, Blanco M T,et al.Construction and Building Materials,2017,145,576.
31 Brough A R,Holloway M,Sykes J,et al.Cement and Concrete Research,2000,30(9),1375.
32 Li Z X,Tang J W.Advanced Materials Research,2012,534,34.
33 Sugiarto A,Satria J,Wijaya S W.Materials Science Forum,2016,857,416.
34 Oderji S Y,Chen B,Shakya C,etal.Construction and Building Materials,2019,229,116891.
35 Fan S D,Li Y X,Wang S J,et al.Concrete, 2014(10),81 (in Chinese).
樊晓丹,李玉祥,王少剑,等.混凝土,2014(10),81.
36 Xie J H,Li L M,Huang J J,et al.Journal of Architecture and Civil Engineering,DOI: http:∥kns.cnki.net/kcms/detail/61.1442.TU.20220309.1352.002.html (in Chinese).
谢建和,李丽明,黄俊健,等.建筑科学与工程学报,DOI: http:∥kns.cnki.net/kcms/detail/61.1442.TU.20220309.1352.002.html.
37 LEE N K,LEE H K.Construction and Building Materials,2013,47,1201.
38 Kalina L,Vlastimil B,Radoslav N,et al.Materials,2016,9(5),395.
39 Kusbiantoro A,Ibrahim M S,Muthusamy K,et al.Procedia Environmental Sciences,2013,17,596.
40 Assi L N,Deaver E,Ziehl P.Construction and Building Materials,2018,191(10),47.
41 Najimi M,Ghafoori N,Sharbaf M.Magazine of Concrete Research,2020,72(18),919.
42 Chen W,Jin L,Fan J F,et al.Bulletin of The Chinese Ceramic Society, 2016,35(6),1682 (in Chinese).
陈伟,金浪,范剑锋,等.硅酸盐通报,2016,35(6),1682.
43 Yu Q J,Zhao S Y,Huang J Q,et al.Journal of the Chinese Ceramic Society,2005,33(7),871 (in Chinese).
余其俊,赵三银,黄家琪,等.硅酸盐学报,2005,33(7),871.
44 Nedunuri A,Muhammad S.Construction and Building Materials,2022,344,128128.
45 Dupuy C,Havette J,Gharzouni A,et al.Construction and Building Materials,2019,200(10),272.
46 Zhang W L,Yang C H,Yang K,et al.Journal of Building Materials,2016,19(5),803 (in Chinese).
张武龙,杨长辉,杨凯,等.建筑材料学报,2016,19(5),803.
47 Sinha A K,Talukdar S.Construction and Building Materials,2021,313,125380.
48 Rakhimova N R,Rakhimov R Z,Morozov V P,et al.Journal of Cleaner Production,2017,149,60.
49 Zhang L,Ji Y,Li J,et al.Construction and Building Materials,2019,212(10),192.
50 Sasaki K,Kurumisawa K,Ibayashi K.Construction and Building Materials,2019,216(20),337.
51 Sun J W D.Journal of Thermal Analysis and Calorimetry,2021,144(1),41.
52 Karthik A,Sudalaimani K,Kumar C.Construction and Building Materials,2017,149,338.
53 Ismail E H.Journal of Sustainable Cement-Based Materials,2017,7,1.
54 JangJ G,Lee N K.Construction and Building Materials,2014,50,169.
55 Lu C F,Zhang Z H,Shi C J,et al.Cement and Concrete Composites,2021,121(1),104061.
56 Yuan Q,Huang Y L,Huang T J,et al.Journal of Central South University,2022,29(1),282.
57 Dai X,Aydin S,Yardimci M Y,et al.Cement and Concrete Research,2022,159,106872.
58 Thirunavukarasu R. Construction and Building Materials,2020,267,120965.
59 Luukkonen T,Abdollahnejad Z,Ohenoja K,et al.Journal of Sustainable Cement-Based Materials,2019,(8),244.
60 Ren J,Zhou Q Z,Yang C H,et al.Cement and Concrete Composites,2023,136,104900.
61 Wang X Y,Wang A G,Zhang Z H,et al.Composites Part B: Engineering,2023,252,110519.
62 Cong X,Zhou W,Geng X,et al.Cement and Concrete Composites,2019,104,103399.
63 Habbaba A,Plank J.Journal of the American Ceramic Society,2012,95(2),768.
64 Lei H K.Cement and Concrete Research,2020,136(1),106150.
65 Thushara Raju,K.P.Ramaswamy,B.Saraswathy.Materials Today,Proceedings,2022,62,846.
66 Weckwerth S A,Temme R L,Flatt R J.Cement and Concrete Research,2022,151,106523.
67 Zhang J Y,Ye H,Gao X J,et al.Journal of Materials Research and Technology,2022,17,1740.
68 Chen X,Mondal P.Journal of the American Ceramic Society,2021,104,2894.
69 Park S,Pour-Ghaz M.Construction and Building Materials,2018,182(10),360.
70 Zhang Z Q,Zhou D L,Li F G,et al.Concrete, 2008(8),63 (in Chinese).
张志强,周栋梁,李付刚,等.混凝土,2008(8),63. |
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