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Constitutive Modeling of Different Types of Concrete under Uniaxial Compression
The cost of experiments on different types of concrete has raised the demand for prediction of their behavior with numerical analysis. In this research, an advanced numerical model has been presented to predict the complete elastic-plastic behavior of polymer concrete (PC), high-strength concrete (HSC), high performance concrete (HPC) along with different steel fiber contents under uniaxial compression. The accuracy of the numerical response was satisfactory as compared to other conventional simple models such as Mohr-Coulomb and Drucker-Prager. In order to predict the complete elastic-plastic behavior of specimens including softening behavior, disturbed state concept (DSC) was implemented by nonlinear finite element analysis (NFEA) and hierarchical single surface (HISS) failure criterion, which is a failure surface without any singularity.
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[1] R. Bedi, R. Chandra, and S.P. Singh, “Mechanical properties of polymer Concrete,” J. Compos., pp. 1–12, 2013.
[2] R. Bedi, R. Chandra, “Reviewing some properties of polymer concrete,” The Indian Concrete Journal, vol 88, no. 8, pp. 47-68, Aug. 2014.
[3] T.H. Wee, M.S. Chin, and M.A. Mansur, “Stress-strain relationship of high-strength concrete in compression,” J. Mater. Civ. Eng., vol. 8 no. 2, pp. 70-76, May 1996.
[4] J.C. Lim, and T. Ozbakkaloglu, “Stress-strain model for normal- and light-weight concretes under uniaxial and Triaxial compression,” Constr. Build. Mater., vol. 71, pp. 492-509, Nov. 2014.
[5] Y. Farnam, M. Moosavi, M. Shekarchi, S.K. Babanajad, and A. Bagherzadeh, “Behaviour of slurry infiltrated fibre concrete (SIFCON) under triaxial compression,” Cement Concrete Res., vol. 40, no. 11, pp. 1571-1581, Nov. 2010.
[6] A. Noori, M. Shekarchi, M. Moradian, and M. Moosavi, “Behavior of Steel Fiber-Reinforced Cementitious Mortar and High-Performance Concrete in Triaxial Loading,” ACI Mater. J., vol. 112, no.1, pp. 95-104, Jan.-Feb. 2015.
[7] V. Toufigh, M. Hosseinali, and S.M. Shirkhorshidi, “Experimental study and constitutive modeling of polymer concrete’s behavior in compression,” Constr. Build. Mater., vol. 112, pp. 183-190, Jun. 2016.
[8] C.S. Desai, Mechanics of materials and interfaces: The disturbed state concept. CRC press, 2000.
[9] C.S. Desai, "Constitutive modeling of materials and contacts using the disturbed state concept: Part 1 – background and analysis," Comput. Struct., vol. 146, pp. 214-233, Jan. 2015.
[10] A. Khoei, Computational plasticity in powder forming processes. Elsevier, 2010.
[11] A.H. Akhaveissy, C.S. Desai, S.A.A.D. Sadrnejad,; and H. Shakib, "Implementation and comparison of a generalized plasticity and disturbed state concept for the load-deformation behavior of foundations," Sci. Iran., vol. 16, no. 3, pp. 189-198, May-Jun. 2009.
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