A model for hydrated Portland cement paste as deduced from sorption-length change and mechanical properties

R. F. Feldman; P. J. Sereda

doi:10.1007/bf02473639

journal article Nov 01, 1968

A model for hydrated Portland cement paste as deduced from sorption-length change and mechanical properties

R. F. Feldman P. J. Sereda

Matériaux et Constructions Vol. 1 No. 6 pp. 509-520 · Springer Science and Business Media LLC

View at Publisher Save 10.1007/bf02473639

Topics

No keywords indexed for this article. Browse by subject →

References

23

[1]

Brunauer, S.,The adsorption of gases and vapours. Princeton University Press 1943.

[2]

Everett, D. H.,The solid gas interface. Chapter 36, p. 1055–1110, Marcel Dekker, New York, 1967.

[3]

Amberg, C. H., andMacIntosh, R.,A study of hysteresis by means of length changes of a rod of porous glass. Can. J. Chem., 30, 1012–1032, 1952. 10.1139/v52-121

[4]

Feldman, R. F., andSereda, P. J.,Sorption of water on compacts of bottle hydrated cement II, J. Appl. Chem., 14, 93–104, 1964. 10.1002/jctb.5010140207

[5]

Flood, E. A., andHeyding, R. D.,Stresses and strains in adsorbent-adsorbate systems. Can. J. Chem., 32, 660–682, 1956. 10.1139/v54-087

[6]

Bangham, D., andMaggs, F. A. P. Proc. of conf. ultrafine structure of coals and cokes. British Coal Utilization Research Ass., June 1943, p. 118–130.

[7]

Kalousek, G. L.,Fundamental factors in the drying shrinkage of cement block. J. Am. Concrete Inst., 26, 233–248, 1954.

[8]

Mikhail, R. Sh., Copeland, L. E. andBrunauer, S.,Pore structures and surface areas of hardened portland cement pastes by nitrogen adsorption. Can. J. Chem., 42, 426, 1964. 10.1139/v64-060

[9]

Mikhail, R. Sh., andSelim, S. A.,Adsorption of organic vapours in relation to the hardened portland cement pastes. Highway Research Board Sp. Report 90, p. 123–134, 1966.

[10]

Feldman, R. F., andSereda, P. J.,Sorption of water on bottle hydrated cement I. J. Appl. Chem., 14, 87–93, 1964. 10.1002/jctb.5010140206

[11]

Powers, T. C.,Mechanism of shrinkage and reversible creep of hardened paste. Proc. Int. Conf. on Structure of Concrete, London, 1965.

[12]

Sereda P. J., andFeldman, R. F.,Compacts of powdered materials as porous bodies for use in sorption studies. J. Appl. Chem., 13, 150–158, 1963. 10.1002/jctb.5010130402

[13]

Brunauer, S., Kantro, D. L. andCopeland, L. E.,Stoichiometry of the hydration of B-dicalcium silicate and tricalcium silicate at room temperature. J. Phys. Chem., 80, 761–767, 1958.

[14]

Feldman, R. F.,Sorption and length change scanning isotherms of methanol and water on hydrated portland cement. Submitted to 5th International Symposium on Chem, of Cement, Tokyo, 1968.

[15]

Helmuth, R. A., andTurk, D. H.,The reversible and irreversible drying shrinkage of hardened portland cement and tricalcium silicate pastes. J. Portland Cement Assoc., Research and Development Lab. 9, p. 8–21, May 1967.

[16]

Philleo, R. E.,The origin of strength of concrete. Highway Research Board Spec. Report 90, 175–185, 1966.

[17]

Soroka, I., andSereda, P. J.,The inter relation of hardness, modulus of elasticity and porosity in various gypsum. systems J. Amer. Ceram. Soc., 51, 337–340, 1968. 10.1111/j.1151-2916.1968.tb15949.x

[18]

Soroka, I., andSereda, P. J.,The structure of cement-stone and the use of compacts as structural models. Submitted to the 5th International Symposium on the Chemistry of Cement, Tokyo, 1968.

[19]

Swenson, E. G., andSereda, P. J.,Some ageing characteristics of lime. J. Appl. Chem., 17, 198–202, 1967. 10.1002/jctb.5010170704

[20]

Swenson, E. G., andSereda, P. J.,A mechanism for carbonation shrinkage of lime and hydrated cement. J. Appl. Chem. In press.

[21]

Olphen, H. van,An introduction to clay colloid chemistry. Interscience Publishers, New York, 1963.

[22]

Sereda, P. J., Feldman, R. F. andSwenson, E. G.,Effect of sorbed water on some mechanical properties of hydrated cement pastes and compacts. Highway Research Board Spec. Report 90, p. 58–73, 1966.

[23]

Zhurkov, S. N., Dokl. Akad. Nauk SSSR 49, 198, 1945.

Cited By

231

A review and comparison study on drying shrinkage prediction between alkali-activated fly ash/slag and ordinary Portland cement

Dunwen Huang, Peng Chen · 2021

Construction and Building Materials

New insights into creep characteristics of calcium silicate hydrates at molecular level

M.F. Kai, L.W. Zhang · 2021

Cement and Concrete Research

Creep behavior of C-S-H under different drying relative humidities: Interpretation of microindentation tests and sorption measurements by multi-scale analysis

Piyapong Suwanmaneechot, Abudushalamu Aili · 2020

Cement and Concrete Research

Effect of pore size distribution on drying shrinking of alkali-activated slag concrete

Frank Collins, J.G Sanjayan · 2000

Cement and Concrete Research

Metrics

231

Citations

23

References

Details

Published: Nov 01, 1968
Vol/Issue: 1(6)
Pages: 509-520
License: View

Authors

Cite This Article

R. F. Feldman, P. J. Sereda (1968). A model for hydrated Portland cement paste as deduced from sorption-length change and mechanical properties. Matériaux et Constructions, 1(6), 509-520. https://doi.org/10.1007/bf02473639

A model for hydrated Portland cement paste as deduced from sorption-length change and mechanical properties

You May Also Like