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1. Ramachandran, V. S., Feldman,. R. F. and Beaudoin, J. J., Concrete Science, London: Heyden & Son Ltd. (1981).
2. Odler, I. and Becker, Th., Effect of Some Liquefying Agents on Properties and Hydration of Portland Cement and Tricalcium Silicate Pastes, Cera. Conor. Res. 10: 321—331 (1980).
3. Banfill, P. F. G. [Discussion of paper by Daimon, M. and Roy, D. M., Rheological Properties of Cement Mixes, 8: 753—764 (1978)] Cera. Concr. Res. 9: 795—796 (1979); Mag. Concr. Res. 33: 37—47 (1981).
4. Roy, D. M. and Asaga, K., Rheological Properties of Cement Pastes, V. Effects of Time on Viscometric Properties of Mixes Containing Super-plasticizers, Cem. Concr. Res. 10: 387—394 (1980).
5. Ramachandran, V. S., Adsorption and Hydration Behavior of Tricalcium Aluminate-Water and Tricalcium Aluminate-Gypsum-Water Systems in the Presence of Superplasticizers. /. Am. Concr. Inst. 80: 235—241 (1983).
6. Ramachandran, V. S., Influence of Superplasticizers on the Hydration of Cement. 3rd Intern. Congr. Polymers in Concrete, Koriyama, Japan, 1071 — 1081 (1981).
7. Ramachandran, V. S., Elucidation of the Role of Chemical Admixtures in Hydrating Cements by DTA Technique, ThermochimicaActa 3: 343—366 (1972).
8. Ramachandran, V. S., Effect of Calcium Lignosulfonate on Tricalcium Aluminate and its Hydration Products, Materiaux et Constr. 5: 67—76 (1972).
9. Massazza, F., Costa, U. and Barrila, A., Adsorption of Superplasticizers on Calcium Aluminate Mono-sulfate Hydrate. Amer. Concr. Inst. SP-68, 499—514 (1981).
10. Collepardi, M., Corradi, M. and Valente, M., Influence of Polymerization of Sulfonated Naphthalene Condensate and its Interaction with Cement. Amer. Concr. Inst. SP-68, 485—498 (1981).
11. Collepardi, M., Corradi, M., Baldini, G. and Pauri, M., Influence of Sulfonated Naphthalene on the Fluidity of Cement Paste., VII Intern. Congr. Chem. Cements, Paris, vol III, 20—25 (1980).
Concrete, Ottawa, Canada 23p (1981).
13. Collepardi, M., Corradi, M.
15. Blank, В., Rossington, D. R. and Weinland, L. A., Adsorption of Admixtures on Portland Cement, /. Amer. Cer. Soc. 46: 395—399 (1963).
16. Rossington, D. R. and Runk, E., Adsorption of Admixtures on Portland Cement Hydration Products, /. Amer. Cer. Soc. 51: 46—50 (1966).
17. Ramachandran, V. S. and Feldman, R. F., Adsorption of Calcium Lignosulfonate on Tricalcium Aluminate and its Hydrates in a Non-Aqueous Medium, Cera. Tech. 2: 121—129 (1971).
18. Ramachandran, V. S., Interaction of Calcium Lignosulfonate with Tricalcium Silicate, Hydrated Tricalcium Silicate and Calcium Hydroxide, Cem. Concr. Res. 2: 179— 194 (1972).
Cement Water Dispersions, Ind. Eng.
С hem. 15: 242—249 (1976).
Cement. 7th Intern. Congr. Chem.
Cements, Paris, vol II, 242—246 (1980).
Polymer. 7th Intern. Congr. Chem.
Cements, Paris, vol IV, 524—528 (1980).
nates During the Setting of Cements.
CEMBUREAU Rept. pp 3 (1977).
Pastes. 7th Intern. Congr. Chem.
Cements, Paris, Vol II, 161 — 166 (1980).
25. Sakai, E., Raina, K-, Asaga, K., Goto, S. and Kondo, R., Influence of Sodium Aromatic Sulfonates on the Hydration of Tricalcium Aluminate with or without Gypsum, Cem. & Concr. 10: 311—319 (1980).
26. Ramachandran, V. S., Hydration of C3A in the Presence of Admixtures. 7th Intern. Congr. Chem. Cements, Paris, Vol IV, 520—523 (1980).
27. Massazza, F. and Costa, U., Effect of Superplasticizers on the C3A Hydration. 7th Intern. Congr. Chem. Cements, Paris, Vol IV, 529— 535 (1980).
28. Hayek, E. and Dierkes, P., X-ray Examination into the Effect of Melment on the Hydration of Gypsum and Cement Phases C3A and C3S. Melment Symp., Trostberg, pp 14, (1973).
Phases in Cement. V Intern. Melment Symp., Munich, 17—21 (1979).
31. Sinka, J., Fleming, J. and Villa, J., Condensates on the Properties of Concrete. Prepared for Presentation at 1st Intern. Symp. Superplasticizers. Ottawa, Canada, p 22 (1978).
32. Kantro, D. L., Influence of Water Reducing Admixtures on Properties of Cement Paste — A Miniature Slump Test, Cem. Concr. Aggregates. 2: 95—102 (1980).
Experiences in Japan. Proc. Intern.
35. Hewlett, P. C, Experiences in the Use Superplasticizers in England. Proc. Intern. Symp. Superplasticizers in Concrete, Ottawa, Canada, 249— 277 (1978).
36. Mailvaganam, N. P., Slump Loss in Flowing Concrete. Superplasticizers in Concrete, Amer. Concr. Instt. SP-62, 389—403 (1979).
37. Superplasticizing Admixtures in Concrete, Cement Concr. Assn. UK pp 32 (1976).
39. Neville, A. M. and Chattrton, M., (Eds.), New Concrete Technologies and Building Design, The Construction Press, London pp 134 (1979).
40. Hattori, K., Experiences with Mighty Superplasticizers in Japan. Superplasticizers in Concrete, Amer. Concr. Instt. SP-62, 37—66 (1979).
41. Malhotra, V. M., Superplasticizers: Treir Effect on Fresh and Hardened Concrete, CANMET Rept, Canada , pp 23, (1979).
42. Ramachandran, V. S., Effect of Retarders/Water Reducers on Slump Loss in Superplasticized Concrete. Amer. Concr. Instt. SP-68, 393— 407 (1981).
43. Malhotra, V. M., Effect of Repeated Dosages of Superplasticizers on Workability, Strength and Durability of Concrete, CANMET Rept, Ottawa, Canada, pp 34 (1978).
44. Valore, R. C, Kudrenski, W. and Gray, D. E., Application of High Range Water Reducing Admixtures in Steam-Cured Cement Fly Ash Concretes. Superplasticizers in Concrete, Amer. Concr. Instt. SP-62, 337— 373 (1979).
45. Aignesberger, A., and Kern, A., Use of Melamine-Based Superplas-ticizer as a Water Reducer. Amer. Concr. Inst., SP-68, 61—80 (1981).
46. Johnston, С D., Gamble, B. R. and Malhotra, V. M., Superplasticizers: Effect on Properties of Fresh and Hardened Concrete; Proc TRB Symp Superplast in Concr; Transportation Research Recond No. 720; Washington, D. C; January 1979.
47. Ghosh, R. S. and Malhotra, V. M., Use of Superplasticizers as Water Reducers; CANMET Division Report MRP/MRL 78-189 (J); CANMET Canada Energy, Mines and Resources, Ottawa; (1978).
48. Lane, R. O. and Best., J. F., Laboratory Studies on the Effects of Superplasticizers on the Engineering Properties of Plain and Fly Ash Concrete; Proc Int Symp Superplast Concr; CANMET, Canada Energy, Mines and Resources, Ottawa; Vol. 1, 379—402; (1978).
Concr. Inst., SP-68, 233—252; (1981).
Development of High Strength Concrete Incorporating a Large Percentage of Fly Ash and Superplasticizers; CANMET Division Report MRP/MSL 81 — 124 (OP&J); (1981).
Special Fly Ash Concretes. Amer.
Concr. Inst., SP-68, 1—20; (1981).
Ottawa; Vol. 1, 325—346, (1978).
Mines and Resources, Ottawa; (1978).
57. Malhotra, V. M., Performance of Superplasticizers in High Water-to-Cement Ratio Concrete; Proc TRB Symp Superplast; Transportation Research Record No. 720; Washington, D. S.; (1979).
58. Roberts, L. R. and Scheinder, R., Air Void and Frost Resistance of Concrete Containing Superplasticizers; Amer. Concr. Inst., SP-68, 189— 213, (1981).
59. Okada, E., Hisaka, M., Kazama, Y. and Hattori, K., Freeze-Thaw Resistance of Superplasticized Concretes; Amer. Concr. Inst., SR-68, 215—231, (1981).
60. Malhotra, V. M., Mechanical Properties and Freezing and Thawing Resistance of N on-Air-Entrained, Air-Entrained, and Air-Entrained Superplasticized Concrete; ASTM, Cement, Concrete and Aggregates, Vol. 4, pp. 3—23, (1982).
61. Brooks, J. J., Wainwright, P. J and Neville, A. M., Time-Dependent Properties of Concrete Containing Mighty Admixtures; Proc Int Symp Superplast Concr; CANMET, Canada Energy, Mines and Resources, Ottawa; May 20—31, 1978, Ottawa; Vol. 2, 425—450; (1978).
62. Collepardi, M. and Corradi, M., Influence of N aphthalene-Sulphona-ted Polymer Based Superplasticizers on the Strength of Lightweight and Ordinary Concretes; Proc Int Symp Superplast in Concr; CANMET, Canada Energy, Mines and Resources, Ottawa; May 29—31, 1978, Ottawa, Vol. 2, 451—480; (1978).
63. LaFraugh, Robert W., The Use of Superplasticizers in Precast Industry; Proc Int Symp Superplast Concr; CANMET, Canada Energy, Mines and Resources, Ottawa; May 29—31, 1978, Ottawa; Vol. 1, 161 — 182; (1978).
1978, Ottawa; Vol. 1, 31—48 (1978).
65. Hester, Weston, Т., HRWR Admixtures in Architectural Prestressed and Precast Concrete Applications; Prestressed Concrete Institute, Vol. 25, No. 1, pp. 96—111, (1980).
66. Holbek Kai, and Skrastins, Janis I., Some Experience With the Use of Suplastisizers in the Precast Concrete Industry in Canada; Amer. Concr. Inst., SP-62, 87—99, (1979).
67. Collepardi, M., Corradi, M. and Valente, M., Super plasticized Shrinkage Compensating Concrete; Amer. Concr. Inst., SP-68, 159—172, (1982).
69. Malhotra, V. M. and Carette, G. G., Silica Fume Concrete — Properties, Applications and Limitations; CANMET Division Report MRP/MSL 82—54 (OP&J), 23 pp., (1982).
70. Bache, Hans Henrik, Densified Cement Ultra-Fine Particle-Based Materials; Presented at the Second International Conference on Superplasticizers in Concrete, Ottawa, Ontario, Canada, 33 pp., (1982).
71. Quon, D. H. H. and Malhorta, V. M., Effect of Superplasticizers on Slump, Strength and Degree of Conversion of High Alumina Cement Concrete; Amer. Concr. Inst., SP-68, 173—188, (1982).
Ottawa; Vol. 2, 481—514, (1978).

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