Formulation of Mathematical Model for Stress-Strain Relationship of Normal and High Strength Concrete Under Compression
References
- JERGA, J. - KRAJČI, Ľ.: Damage in Concrete and its Detection by Use of Stress-Volumetric Strain Diagram. Civil and Environmental Engineering, Vol. 10, Iss. 1, 2014, pp. 16-25.
- HOGNESTAD, E.: Study of combined bending and axial load in reinforced concrete members. University of Illinois at Urbana Champaign, College of Engineering, Engineering Experiment Station, 1951.
- POPOVICS, S.: A numerical approach to the complete stress-strain curve of concrete. Cement and concrete research, 3(5), 1973, pp. 583-599.
- CARREIRA, D. J. - CHU, K. H.: Stress-strain relationship for plain concrete in compression. in Journal Proceedings, 1985.
- HSU, L. - HSU, C. T.: Complete stress—strain behaviour of high-strength concrete under compression. Magazine of concrete research, 46(169), 1994, pp. 301-312.
- WEE, T. - CHIN, M. - MANSUR, M.: Stress-strain relationship of high-strength concrete in compression. Journal of Materials in Civil Engineering, 8(2), 1996, pp. 70-76.
- AYUB, T. - SHAFIQ, N. - NURUDDIN, M. F.: Stress-strain response of high strength concrete and application of the existing models. Research Journal of Applied Sciences, Engineering and Technology, 8(10), 2014, pp. 1174-1190.
- SARGIN, M. - GHOSH, S. K. - HANDA, V.: Effects of lateral reinforcement upon the strength and deformation properties of concrete. Magazine of concrete research, 23(75-76), 1971, pp. 99-110.
- WANG, P. - SHAH, S. - NAAMAN, A.: Stress-strain curves of normal and lightweight concrete in compression. Journal Proceedings, 1978.
- Euro International Concrete Committee (CEB), C. E. - I. d. B.: CEB - FIP Model Code 1990. Newscast (Bull. d'information), 1(203), 1990.
- LU, Z. H. - ZHAO, Y. G.: Empirical stress-strain model for unconfined high-strength concrete under uniaxial compression. Journal of Materials in Civil Engineering, 22(11), 2010, pp. 1181-1186.
- VAN GYSEL, A. - TAERWE, L.: Analytical formulation of the complete stress-strain curve for high strength concrete. Materials and Structures, 29(9), 1996, pp. 529-533.
- SHAH, S. - GOKOZ, U. - ANSARI, F.: An experimental technique for obtaining complete stress-strain curves for high strength concrete. Cement, Concrete and Aggregates, 3(1), 1981, pp. 21-27.
- SLATE, F. O. - NILSON, A. H. - MARTINEZ S.: Mechanical Properties of High-Strength Lightweight Concrete. Am. Concr. Inst. J. Proc., 83(4), 1986, pp. 606–613.
- ALI, A. M. - FARID, B. - AL-JANABI, A.: Stress-Strain Relationship for concrete in compression made of local materials. Engineering Sciences, 2(1), 1990.
- DAHL, K. K.: A constitutive model for normal and high strength concrete. 1992, Afdelingen for Baerende Konstruktioner, Dankmarks Tekniske Højskole.
- ALMUSALLAM, T. - ALSAYED, S.: Stress–strain relationship of normal, high-strength and lightweight concrete. Magazine of concrete research, 47(170), 1995, pp. 39-44.
- CHEN, D.: Stress-strain behavior of high strength concrete cylinders. 1995.
- TASNIMI, A.: Mathematical model for complete stress–strain curve prediction of normal, lightweight and high-strength concretes. Magazine of concrete research, 56(1), 2004, pp. 23-34.
Language: English
Page range: 119 - 133
Published on: May 12, 2023
Published by: University of Žilina
In partnership with: Paradigm Publishing Services
Publication frequency: 2 issues per year
Keywords:
Related subjects:
© 2023 Wisam Hulail Sultan, Dina Mukheef Hamza, published by University of Žilina
This work is licensed under the Creative Commons Attribution 4.0 License.