化学外加剂与水泥基材料的流变特性
Chemical Admixtures and Rheology of Cement Systems
摘要
化学外加剂的技术进步使得控制水泥基材料和混凝土的流动性成为现实。有研究表明,由外加剂所形成的流动性变化受到水泥自身水化及/或外加剂后吸附性的影响。本文将讨论外加剂的类型及其性能、减水机理、水泥基材料的流动性及外加剂与水泥的相容性。
出处
《混凝土世界》
2009年第9期52-63,共12页
China Concrete
参考文献10
-
1V.Fernon,A.Vichot,N.Le Goanvic,P.Combet,F.Corazza,U.Costa.Intaeraction between portland cement hydrates and polynaphthalene sulfonates[].Proc ofth CANMET/ACI Int Confon Superplasticizers and Other Chemical Admixtures in Concrete.1997
-
2K.Yamada,T.Sugamata,H.Nakanishi.Fluidity performance evaluation of cement and superplasticizer[].J Adv Concr Tech.2006
-
3S.Hanehara,K.Yamada,J.Saunders.Trends of blended cement[].World Cem.2005
-
4K.Yamada,T.Takahashi,S.Ogawa,S.Hanehara.Molecular structure of the polycarboxylate-type superplasticizer having tolerance to the effect of sulfate ion[].Cem Sci and Concr Tech.2000
-
5K.Yamada,K.Okada,H.Ozu,M.Yano.Polycarboxylate-type superplasticizer of which performance is enhanced by sulfate ion[].Proc of JCI.2001
-
6K.Yamada,S.Hanehara,K.Honma.Effects of initial hydration reactivity of cement on the dispersing performance of polycarboxylate superplasticizer[].Conc Library of JSCE.2001
-
7K.Ichitsubo,M.Ichikawa,S.Sano.The effects of the kind and amount of calcium sulfate on the initial hydration of cement and fluidity under the existence of polycarboxylate superplasticizer[].Proc of JCA.2004
-
8D.Atarashi,E.Sakai,R.Obinata,M.Daimon.Influence of clay minerals on fluidity of CaCO3suspension containing comb-type polymer[].Cem Sci and Concr Tech.2003
-
9E.Sakai,D.Atarashi,A.Kawakami,M.Daimon.Influence of molecular structutre of comb-type superplasticizers[].Proc ofth CANMET/ACI Int Conf on Superplasticizers and Other Chem Adm in Concr.2003
-
10Y.Yamada.Study on the rheology of fresh concrete[].Cement and Concrete.2006
-
1王震昔,刘永民.减水剂掺量与胶砂试体空隙率,强度的关系[J].建材标准化与质量管理,2000(4):37-39. 被引量:3
-
2周永明.混凝土坍落度损失机理及控制方法[J].工程建设与设计,2009(3):105-108. 被引量:6
-
3王筱平,余兆祥,李志明.混凝土高效减水剂的应用与发展方向[J].精细石油化工,1996,13(5):51-55. 被引量:5
-
4郑秀梅,李广军,王文仲.减水剂对混凝土的影响及其施工应用[J].佳木斯大学学报(自然科学版),2004,22(4):529-532. 被引量:1
-
5宋建中.聚羧酸系高性能超塑化剂在水泥混凝土的应用[J].江苏建材,2010(1):12-16.
-
6黄学良,臧庆珊.减水型粉煤灰减水机理的探讨[J].粉煤灰,1995,7(2):19-23. 被引量:3
-
7吴凤龙,宋瑾,楚慧元,鲁聿伦.复合型聚羧酸系减水剂的合成及性能研究现状[J].化工管理,2016(22):208-210.
-
8刘朝晖,王志敏,樊素芳,李伟,李学民,赵宏.聚羧酸高性能混凝土减水剂的减水机理与分子设计[J].河南建材,2009(6):17-18. 被引量:3
-
9袁吉童,刘斌,陆承方.混凝土用减水剂研究综述[J].四川建材,2015,41(6):9-10. 被引量:7
-
10何世华.混凝土高性能减水剂的发展现状与展望[J].福建建材,2013(3):13-15. 被引量:1
