1 |
Kreppelt, F., Weibel, M., Zampini, D. and Romer, M. (2002), "Influence of solution chemistry on the hydration of polished clinker surfaces-a study of different types of polycarboxylic acid-based admixtures", Cement Concrete Res., 32(2), 187-190.
DOI
|
2 |
Kwan, A.K.H. and Ng, I.Y.T. (2009), "Optimum super plasticizer dosage and aggregate proportions for SCC", Mag. Concrete Res., 61(4), 281-292.
DOI
|
3 |
Lewis, J.A., Matsuyama, H., Kirby, G., Morissette, S. and Young, J.F. (2000), "Polyelectrolyte effects on the rheological properties of concentrated cement suspensions", J. Am. Ceramic Soc., 83(8), 1905-1913.
DOI
|
4 |
Li, Q.H. and Kong, X.M. (2009), "Properties and microstructure of polymer modified mortar based on different acrylate latexes", J. Chinese Ceram. Soc., 37(1), 107-114.
|
5 |
Lin, F. and Meyer, C. (2009), "Hydration kinetics modeling of Portland cement considering the effects of curing temperature and applied pressure", Cement Concrete Res., 39(4), 255-265.
DOI
|
6 |
Mollah, M.Y.A., Adams, W.J., Schennach, R. and Cocke, D.L. (2000) "A review of cement-uperplasticizers interactions and their models", Adv. Cement Res., 12(4), 153-161.
DOI
|
7 |
Murata, J. (1984), "Flow and deformation of fresh concrete", Mater. Struct., 17(2), 117-129.
|
8 |
Nawa, T. (1999), "The effects of chemical structure of superplasticizers on the fluidity of cement pastes and the hydration of cement", Konkuritou Ronbunshu, Semento, 53(4), 751-758. (in Japanese)
|
9 |
Neubauer, C.M., Yang, M. and Jennings, H.M. (1998), "Inter-particle potential and sedimentation behaviour of cement suspensions: Effects of admixtures", Adv. Cement Bas. Mater., 8(1), 17-27.
DOI
|
10 |
Ohta, A., Sugiyama, T. and Tanaka, Y. (2000), "Superplasticizers and other chemical admixtures", Proceedings of 6th CANMET/ACI International Conference Superplasticizers and Other Chemical Admixtures in Concrete, SP-195, American Concrete Institute.
|
11 |
Ramachandran, V.S. (1992), Super-Plasticizers Progress in Cement and Concrete, ABI Books (Part II), New Delhi, India.
|
12 |
Plank, J., Sachsenhauser, B. and de Reese, J. (2010), "Experimental determination of the thermodynamic parameters affecting the adsorption behaviour and dispersion effectiveness of PCE superplasticizers", Cement Concrete Res., 40(5), 699-709.
DOI
|
13 |
Plank, J., Vlad, D., Brandl, A. and Chatziagorastou, P. (2009), "Colloidal chemistry examination of the steric effect of polycarboxylate superplasticizers", Cement Int., 3(2), 100-110.
|
14 |
Puertas, F., Santos, H., Palacios, M. and Martinez-Ramirez, S. (2005), "Polycarboxylate-type superplasticizer admixture: Effect on hydration, microstructure and rheology behaviour in cement paste", Adv. Cement Bas. Mater., 17(2), 77-89.
|
15 |
Struble, L. and Sun, G.K. (1995), "Viscosity of Portland cement paste as a function of concentration", Adv. Cement Bas. Mater., 2(2), 62-69.
DOI
|
16 |
Ran, Q.P., Somasundaran, P. and Miao, C.W. (2009), "Effect of the length of the side chains of comb-like copolymer dispersants on dispersion and rheological properties of concentrated cement suspensions", J. Colloid Interf. Sci., 336(2), 624-633.
DOI
|
17 |
Rechtie, A.G.B. (1962), "The triaxial testing of fresh concrete", Mag. Concrete Res., 14(4), 37-41.
DOI
|
18 |
Schwartzentruber, A. and Catherine, C. (2000), "Method of the concrete equivalent mortar (CEM)-A new tool to design concrete containing admixtures", Mater. Struct., 33(232), 475-482.
DOI
|
19 |
Tattersall, G.H. and Banfill, P.F.G. (1983), The Rheology of Fresh Concrete, Pitman Advance Publishing Program, University of Michigan, USA, 356.
|
20 |
Uchikawa, H., Sawaki, D. and Hanehara, S. (1995), "Influence of kind and added timing of organic admixture on the composition, structure and property of fresh cement paste", Cement Concrete Res., 25(2), 353-364.
DOI
|
21 |
Winnefeld, F., Becker, S., Pakusch, J. and Gotz, T. (2007), "Effects of the molecular architecture of comb-shaped superplasticizers on their performance in cementitious systems", Cement Concrete Compos., 29(4), 251-262.
DOI
|
22 |
Yamada, K., Takahashi, T., Hanehara, S. and Matsuhisa, M. (2000), "Effect of chemical structure on the properties of polycarboxylate - type superplasticizer", Cement Concrete Res., 30(2), 197-201.
DOI
|
23 |
Yoshioka, K., Tazawa, W., Hawai, K. and Enohata, T. (2002), "Absorption characteristic of superplasticiser on cement component minerals", Cement Concrete Res., 32(10), 1507-1513.
DOI
|
24 |
Zhang, G., Li, G. and Li, Y. (2016), "Effects of superplasticizers and retarders on the fluidity and strength of sulphoaluminate cement", Constr. Build. Mater., 126, 44-54.
DOI
|
25 |
Zhang, Y., Kong, X., Gao, L. and Wang, J. (2006), "Research on test method for workability of high flowability concrete", J. Build. Sci., 22(5), 51-55.
|
26 |
ASTM C150 (2004), Standard Specification of Portland Cement, American Society for Testing and Materials Standard Practice, Philadelphi Pennsylvania USA.
|
27 |
Wallevik, O.H. (1990), "The rheology of fresh concrete and its application on concrete with and without silica fume", Ph.D. Thesis, (Unpublished), NTH Trondheim.
|
28 |
Wallevik, O.H. and Wallevik, J.E. (2017), "Rheology as a tool in concrete science: the use of rheographs and workability boxes", Cement Concrete Res., 41(12), 1279-1288.
DOI
|
29 |
Winnefeld, F., Becker, S., Pakusch, J. and Gotz, T. (2006), "Polymer structure/concrete property relations of HRWRA", Proceedings of the 8th CANMET/ACI International Conference Recent Advances in Concrete Technology, Montreal.
|
30 |
Alonso, M.M., Palacios, M., Puertas, F., de la Torre, A.G. and Aranda, M.A.G. (2007), "Effect of polycarboxylate admixture structure on cement paste rheology", Mater. Const., 57(6), 65-81.
|
31 |
Aydin, S., Hilmi, A. and Ramyar, K. (2009), "Effects of fineness of cement on polynaphthalene sulfonate based superplasticizer-cement interaction", Constr. Build. Mater., 23(6), 2402-2408.
DOI
|
32 |
Banfill, P.F.G. (2006), "Rheology of fresh cement and concrete", Rheology Reviews, The British Society of Rheology, UK.
|
33 |
Bauchkar, S.D. and Chore, H.S. (2014), "Rheological properties of self consolidating concrete with various mineral admixtures", Struct. Eng. Mech., 51(1), 1-13.
DOI
|
34 |
Banfill, P.F.G. (1994), "Rheological methods for assessing the flow properties of mortar and related materials", Constr. Build. Mater., 8(1), 43-50.
DOI
|
35 |
Banfill, P.F.G. and Saunders, D.C. (1981), "The viscometric examination of cement pastes", Cement Concrete Res., 11(2), 363-370.
DOI
|
36 |
Banfill, P.F.G. (2003), "The rheology of fresh cements and concrete", Publication in Proceedings of 11th International Cement Chemistry Congress, Durban.
|
37 |
Bauchkar, S.D. and Chore, H.S. (2017), "Experimental studies on rheological properties of smart dynamic concrete", Adv. Concrete Constr., 5(3), 183-199.
DOI
|
38 |
Bauchkar, S.D., Chore, H.S. and Mukherjee, S.K. (2017), "Rheological properties of Smart Dynamic Concrete (SDC) containing different supplementary Cementitious Materials", J. Struct. Eng. (JoSE), Struct. Eng. Res. Centr., 44(6), 1-12
|
39 |
Chandra, S. and Bjornstrom, J. (2003), "Influence of superplasticizers type and dosage on the slump loss of Portland cement mortars-Part II", Cement Concrete Res., 32(10), 1613-1619.
DOI
|
40 |
EFNARC (2005), European Guidelines for SCC-2005, The European Federation of National Trade Associations (EFNARC), Specification and Guidelines for Self-Compacting Concrete, Association House, Farnham, UK.
|
41 |
Felekoglu, B. and Sarkode, H. (2008), "Effect of chemical structure of polycarboxylate-based superplasticizers on workability retention of self-compacting concrete", Constr. Build. Mater., 22(9), 1972-1980.
DOI
|
42 |
Huang, D.N. and Xie, Y.S. (1984), "Rheological concepts of fresh concrete", J. China Ceram., 33(8), 35-39. (in Chinese)
|
43 |
Ferraris, C.F., Obla, K.H. and Hill, R. (2001), "The influence of mineral admixtures on the rheology of cement paste and concrete", Cement Concrete Res., 31(2), 245-255.
DOI
|
44 |
Flatt, R.J. and Houst, Y.F. (2001), "A simplified view on chemical effects perturbing the action of superplasticizers", Cement Concrete Res., 31(8), 1169-1176.
DOI
|
45 |
Heikal, M., Morsy, M.S. and Aiad, I. (2005), "Effect of treatment temperature on the early hydration characteristics of superplasticized silica fume blended cement pastes", Cement Concrete Res., 35(4), 680-687.
DOI
|
46 |
Hu, C. and de Larrard, F.R. (1996), "The rheology of fresh high-performance concrete", Cement Concrete Res., 26(2), 283-294.
DOI
|
47 |
Huang, D.N. (1980), "Rheology and application science of cement", J. China Ceram. Soc., 3(4), 1-10. (in Chinese)
|
48 |
IS: 10262 (2009), Specification for Coarse and Fine Aggregates from Natural Sources for Concrete, Bureau of Indian Standards, New Delhi.
|
49 |
Jayashree, C. and Gettu, R. (2008), "Experimental study of the flow behavior of superplasticized cement paste", Mater. Struct., 41(9), 1581-1593.
DOI
|
50 |
Jolicoeur, C. and Simard, M.A. (1998), "Chemical admixture-cement interactions: phenomenology and physico-chemical concepts", Cement Concrete Compos., 20(2), 87-101.
DOI
|
51 |
Feys, D., De Schutter, G.U., Khayat, K.H. and Ugent, R.V. (2016), "Changes in rheology of self-consolidating concrete induced by pumping", Mater. Struct., 49(11), 4657-4677.
DOI
|
52 |
Kauppi, A., Banfill, P.F.G., Bowen, P., Petersen, B.G., Houst, Y.F., Lafuma, F., Maeder, U., Reknes, K., Schober, I. and Swift, D.S. (2003), "Improved superplasticizers for high performance concrete", Proceedings of the 11th Intetenational Cement Chemistry Congress, Durban.
|