Строительство. Справочные пособия

Добавки в бетон

Раздел: Быт. Хозяйство. Строительство. Техника

1.         Lea, F. M., The Chemistry of

Cement and Concrete, Chemical Pub-

lishing Company, Inc., New York (1971).

2.         Massazza, F., Chemistry of Pozzolanic Additions and Mixed Cements, Proc. Sixth International Congress on the Chemistry of Cement, Moscow (1974).

3.         Sersale, R., Structure and Characteristics of Pozzolans and Fly Ashes, Proc. Seventh International Congress on the Chemistry of Cement, Paris, /  (1980).

4.         Takemoto, K., and Uchikawa, H.,

Hydration of Pozzolanic Cement, ibid.

5.         Berry, E. E. and Malhotra,

V. M., Fly Ash for Use in Concrete —

A Critical Review, AC1 Journal 2(3):

59-73 (1982).

6. Hogan, F. J. and Meusel, J. W., Evaluation for Durability and Strength Development of a Ground Granulated Blast Furnace Slag. Cements, Concrete and Aggregates 3 (1): 40-52 (1981).

7.         Frohnsdorff, G. and Clifton,

J. R., Fly Ash in Cement and Concre

te— Technical Needs and Opportuni

ties. National Bureau of Standards,

NBSIR 81-2239 (1981).

8.         Mehta, P. K., Studies of Blended Cements Containing Santorin Earth. Cement and Concrete Research, 11(4): 507-518 (1981).

9.         Mehta, P. K-, Pozzolanic and Cementitious Byproducts as Mineral Admixtures for Concrete — A Critical Review. Proc. International Conference on the Use of Fly Ash, Slags and Silica Fume in Concrete, Montebello, Canada ACI/SP-79 (1983).

10.       Lane, R. O. and Best, J. F., Properties and Use of Fly Ash in Portland Cement Concrete, Concrete International 4 (7): 81-92 (1982).

11.       Davis, R. E., Carlson, R. W., Kelly, J. W. and Davis, H. E., Properties of Cement and Concrete Containing Fly Ash. ACI Journal, Proc. 33: (5): 577-612 (1937).

12.       Mehta, P. K. and Pitt, N., Energy and Industrial Materials from Crop Residues. Resource Recovery and Conservation 2: 23—38 (1976).

13.       Mehta, P. K., Properties of Blended Cements Made from Rice Husk Ash. ACI Journal, Proc. 74 (9): 440—442 (1977).

14.       Malhotra, V. M., and Carette, G. G., Silica Fume — A Pozzolan of New Interest for Use in Some Concretes. Concrete Construction 27 (5): 443— 446 (1982).

15.       Gutt, W. and Nixon, P. J., Use of Waste Materials in the Construction Industry — Analysis of the RILEM Symposium by Correspondence. Materials and Structures 12 (70): 255—306 (1979).

16.       Diamond, S., The Characterization of Fly Ashes, Proc., Symposium on Effects of Fly Ash Incorporation in Cement and Concrete, Materials Research Society, Editor: S.1 Diamond. 12—23 (1981).

17.       Mortureux, В., Hornain, H., Gautier, E. and Regourd, M., Comparison   of   the   Reactivity   of   Different Pozzolans. Proc. 7th International Congress on the Chemistry of Cement, Paris, 3: 110—115 (1980).

18.       Diamond, S. and Lopez-Flores,

F., On the Distribution Between Physical

and Chemical Characteristics Between

Lignitic and Bituminous Fly Ashes,

Proc, Symposium on Effects of Fly

Ash Incorporation in Cement and

Concrete, Materials Researsh Society

(S.    Diamond,    ed.):    34—44    (1981).'

19.       Regourd, M., Mortureux, В.,

Gautier, E., Hornain, H., and Volant, J.,

Characterization and Thermal Activa

tion of Slag Cements, Proc, 7th

International Congress on the Che

mistry of Cement, Paris, 3: 105—

111  (1980).

20.       Fisher, G. L., Prentice, B. A., Silberman, D., Ordov, J. M., Biermann, A. H., Ragaini, R. C, and McFarland, A. R., Physical and Morphological Studies of Size-Classified Coal Fly Ash, Environmental Science and Technology 12 (4): 447—451   (1978).

21.       Lauf, R. J., Microstructure of Coal Fly Ash Particle, Ceramic Bulletin, 61 (4): 487—490 (1982).

22.       Akatsu, K., Ikeda, I., Shiga, N.,

and Maeda, K-, Investigations on the

So-called Glass Content of Granulated

Blast Furnace Slag, Cement Associa

tion of Japan, Rev. 28th Meeting:

64—66 (1974).

23.       Sadatsune, K., Practical Pro

perties of Slag Cement Prepared with

a Series of Glasses of the Gehlenite-

Akermanite System, Cement Association

of Japan, Rev. 32nd Meeting: 57—*58

(1978).

24.       Wada, S., and Igawa, Т.,

The Influence of Slag Grain Size Dis

tribution on the Quality of the Portland

Blast Furnace Slag Cement, Cement

Association of Japan, Rev. 20th Meeting:

91—93 (1966).

25.       Carette, G. G., and Malhotra, V. M., Silica Fume in Concrete — Preliminary Investigation, CANMET Report 82-1E: 1 — 15 (1982).

26.       Kobayashi, M., and Sato, Т., Mechanical Behavior of Fly Ash Concrete, Proc. Japan-U.S. Science Seminar, San Francisco:  1 — 16 (1979).

27.       Manmohan, D., and Mehta, P. K., Influence on Pozzolanic, Slag and Chemical Admixtures on Pore Size Distribution and Permeability of Hardened Cement Paste, Cement, Concrete  and  Aggregates,  3   (1):   63—67 (1981).

28.       Regourd, M., Mortureux, В., and Gautier, E., Hydraulic Reactivity of Various Pozzolans, Proc. Fifth International Symposium on Concrete Technology, University of Nuevo Leon, Mexico, 1 — 14 (1981).

29.       Mehta, P. K., Sulfate Resistance of Blended Portland Cements Containing Pozzolans and Granulated Blast    Furnace    Slag,    ibid:    35—50.

30.       Feldman, R. F„ Pore Structure Formation During Hydration of Fly Ash and Slag Cement Blends, Proc. Symposium on Fly Ash Incorporation in Cement and Concrete, Materials Research Society (S. Diamond, ed.): 124—133 (1981).

31.       Bamforth, P. В., In-situ Measurement of the Effect of Partial Cement Replacement Using Either Fly Ash or Granulated Blast Furnace Slag on the Performance of Concrete, Proc. Insti— tute of Civil Engineer's, 69 (2): 777— 800 (1980).

32.       Kobayashi, M., Unilization of

Fly Ash and Its Problems in Use in

Japan, Proc. Japan-U.S. Science Se

minar,  San  Francisco:  61—69   (1979).

33.       Cook, J. E., Research and Application of High Strength Concrete Using Class С Fly Ash, Concrete International,   4   (7):   72—80    (1982).

34.       Diamond, S., and Lopez-Flores, F., Comparative Studies of the Effect of Lignitic and Bituminous Fly Ashes in Hydrated Cement Systems, Proc. Symposium on Fly Ash Incorporation in Cement and Concrete, Materials Research Society (S. Diamond, ed.):  112—123 (1981).

35.       Mehta, P. K-, and Pirtz, D.,

Use of Rice Husk Ash to Reduce

Temperature in High-Strength Mass

Concrete, ACI Journal, Proc. 75 (2):

60—63 (1978).

36.       Mehta, P. K., Performance

Tests for Sulfate Resistance and Alkali-

Silica Reactivity of Hydraulic Cements,

Durability of Building Materials and

Components, ASTM STP 691: 336—

345 (1980).

37.       Hooten, R. D., Emery, J. J. and

Low, С A., Sulfate Resistance of Slag

Cements, Proc. International Confe

rence on Slags and Blended Cements,

Mons, Belgium (1981).

38.       Massazza,    F.,    Structure    of Pozzolans and Fly Ash and the Hydration of Pozzolanic and Fly Ash Cements — General Report, Proc. 7th International Congress on the Chemistry of Cements, 4: 85—96 (1980).

39.       Diamond, S., Long-term Status of Calcium Hydroxide Saturation of Pore Solution in Hardened Cements, Cement and Concrete Research 5: 607—616 (1975).

40.       Mehta, P. K. and Polivka, M., Use of Highly Active Pozzolans for Reducing Expansion in Concretes Containing Reactive Aggregates, Living with Marginal Aggregates, ASTM STP 597: 25—35 (1976).

41.       Diamond, S., Effects of Two

Danish Fly Ashes on Alkali Contents

of Pore Solutions of Cement-Fly Ash

Pastes, Cement and Concrete Research

11: 383—394 (1981).

42.       Owens, P. L. and Buttler,

F. G., The Reactions of Fly Ash and

Portland Cement with Relation to the

Strength of Concrete as a Function of

Time and Temperature, Proc. 7th

International Congress on the Chemistry

of Cements, Paris, 3: IV 60—65 (1980).

43.       Mehta, P. K. and Gjorv, О. Е.,

Properties of Portland Cement Con

taining Fly Ash and Condensed Silica

Fume, Cement and Concrete Research:

587—596 (1982).

44.       Bache, H. H., Densified Cement/Ultra Fine Particle-Based Materials, Proc. Second International Conference on Superplasticized Concrete, Ottawa, Canada  (1981).

45.       Tashiro, С and Oba, J., The Effects of Cr203 Cu(OH)2, ZnO and PbO on the Compressive Strength and Hydrates of C3A Paste, Cement and Concrete Research 9(2):  253—258  (1979).

46.       Spellman, L. U., Granulated Blast Furnace Slag as a Mineral Admixture, Concrete International 4(7): 66—71  (1982).

47.       Mehta, P. K., Investigations on Energy Saving Cements, World Cement Technology   11   (4):   166—177   (1980).

48.       Mehta, P. K., Energy, Resources and the Environment — A Review of the U.S. Cement Industry, ibid., 2: 144—159 (1978).

49.       Watt, J. F. and Thome, D. J., Composition and Properties of Pulverized Fuel Ashes, /. App, Chem., 15: 585—594 (1965).

50. Mehta, P. K. Proc. 6th Int.

Symp. on Fly Ash Utilization, Reno,

Nevada  (1982)