Mechanical Properties of Fired Clay-Perlite as Composite Material
Publication: Journal of Materials in Civil Engineering
Volume 12, Issue 1
Abstract
In this study, mechanical properties of fired clay and expanded perlite aggregate mixtures have been predicted by applying the composite materials approach. Models and analytical expressions of composition and property relations recorded in literature for the modulus of elasticity and compressive and flexural strengths are summarized and results of the experimental work are given. As a conclusion, a dependable approach has been obtained in which the effects of the phases are emphasized.
Get full access to this article
View all available purchase options and get full access to this article.
References
1.
Bache, H. H., and Nepper-Christansen, P. (1965). “Observations on strength and fracture in lightweight and ordinary concrete—the structure of concrete and it's behaviour under load.” Proc., Int. Conf. on the Struct. of Concrete, Cement and Concrete Assoc., London, 1–16.
2.
Bushevich, G. A. (1967). “Practice of designing lightweight aggregate concrete of specified properties.” RILEM, Proc., Int. Symp., Budapest, Hungary.
3.
Counto, U. J. (1964). “The effect of the elastic modulus of the aggregate on the elastic modulus, creep and creep recovery of concrete.” Mag. of Concrete Res., 16(48), 129–138.
4.
Eriç, M., Ersoy, H. Y. ( 1991). “The effect of the continuous fiber reinforcement on properties of gypsum and lightweight gypsum composites,” Research Project, Mimar Sinan University, Istanbul, Turkey (in Turkish).
5.
Ersoy, H. Y. ( 1985). “The gypsum cement-pumice-glass fiber composite,” PhD thesis, Istanbul Technical University, Istanbul (in Turkish).
6.
Hansen, T. C. (1960). “Strength, elasticity and creep as related to the internal structure of concrete.” Chem. of Cement, Proc., 4th Int. Symp., Monograph 43, 2, Washington, D.C., 709–723.
7.
Hansen, T. C. (1965). “Influence of aggregate and voids on modulus of elasticity of concrete, cement mortar and cement paste.” ACI J., 62, 193–215.
8.
Hashin, Z. (1962). “The elastic moduli of heterogeneous materials.” J. Appl. Mech., 29(1), 143–150.
9.
Hirsch, T. J. (1962). “Modulus of elasticity of concrete affected by elastic moduli of cement paste matrix and aggregate.” ACI J., 59, 427–451.
10.
Hobbs, D. W. (1980). “Discussion of `The effect of aggregate concentration upon the strength and modulus of elasticity of concrete.”' Mag. of Concrete Res., 32(113), 246–247.
11.
Holiday, L. (1966). Composite materials. Elsevier Science, Amsterdam.
12.
Klaus, D., and Schmidt, H. (1970). Compressive strength of lightweight concrete. Schriftenreihe der Institute für konstruktiven Ingenieurbau, T.U. Braunschweig, 4.
13.
Kocataşkın F., Özturan, T., and Ersoy, H. Y. (1988). “A composite materials approach for the prediction of concrete properties.” Bull. of the Tech. Univ. of Istanbul, 41(2), 333–347.
14.
Lydon, F. D., and Balendran, R. V. (1986). “Some observations on elastic properties of plain concrete.” Cement and Concrete Res., 16, 314–324.
15.
Popovics, S., and Erdey, M. (1970). “Estimation of the modulus of elasticity of concrete-like composite materials.” Mat. and Struct., RILEM, 3(16), 253–260.
16.
Stock, A. F., Hannant, D. J., and Williams, R. I. T. (1979). “The effect of aggregate concentration upon the strength and modulus of elasticity of concrete.” Mag. of Concrete Res., 31(109), 225–234.
17.
Tanaçan, L. ( 1993). “Investigation of the effects of perlite and other additives in the production of lightweight masonry brick,” PhD thesis, Istanbul Technical University, Istanbul (in Turkish).
Information & Authors
Information
Published In
History
Received: Jun 13, 1996
Published online: Feb 1, 2000
Published in print: Feb 2000
Authors
Metrics & Citations
Metrics
Citations
Download citation
If you have the appropriate software installed, you can download article citation data to the citation manager of your choice. Simply select your manager software from the list below and click Download.