Coupled Thermo Mechanical of Wasteglass Powder Reinforced Concrete Beam Subjected to Fire Loads

Abdelli, H.E.; Mokrani, L.; Kennouche, S.; de Aguiar, J.B. “Utilization of waste glass in the improvement of concrete performance”: A mini-review. Waste Manag. Res.J. 2020, 38, pp.1204–1213. [Google Scholar] [CrossRef] [PubMed]. Search in Google Scholar

Beitel JJ, Iwankiw NR, “Survey of multi-story building collapses due to fire, fire resistance capabilities of test laboratories and research needs, Third International workshop of Structures in Fire”, 2004, Vol., p. S1-1. Search in Google Scholar

Chan S.H. and Tuba I.S., (1971)“A finite element method for contact problems of solid bodies”, Int. J. Mech. Sci., 13, pp.615-639. Search in Google Scholar

CEB-Fib Bulletin46, “Fire design of concrete structures - Structural behavior and assessment “, Federation International du beton (fib), 2008, Vol. Search in Google Scholar

Elaqra, H.; Rustom, R. “Effect of using glass powder as cement replacement on rheological and mechanical properties of cement paste. Constr. Build”. Mater. J. 2018, 179, pp.326–335. [Google Scholar] [CrossRef]. Search in Google Scholar

He, Z.H.; Zhan, P.M.; Du, S.G.; Liu, B.J.; Yuan, W.B. “Creep behavior of concrete containing glass powder. Compos”. Part B Eng. J. 2019, 166, pp.13–20. [Google Scholar] [CrossRef]. Search in Google Scholar

Hitesh Lakhani, Akanshu Sharma, Jan Hofmann, “Coupled thermo-mechanical inelastic analysis of reinforced concrete flexural members subjected to fire loads”. Research Report No: E16/01-C/01, Institute of Construction Materials. Search in Google Scholar

Jiang, Y.; Ling, T.C.; Mo, K.H.; Shi, C. “A critical review of waste glass powder—Multiple roles of utilization in cement-based materials and construction products”. J. Environ. Manag. 2019, 242, pp.440–449. [Google Scholar] [CrossRef] [PubMed]. Search in Google Scholar

Kamal Ghouilem, Rachid Mehaddene, Mohammed Kadri “Contact Friction Simulating between Two Rock Bodies Using ANSYS”. International Journal of Engineering Research in Africa ISSN: 1663-4144, Vol. 29, pp 1-9. doi:10.4028/www.scientific.net/JERA.29.1 (2017) Search in Google Scholar

L. Dahmani, A. Khennane & S. Kaci « Crack identification in reinforced concrete beams using ANSYS software” Volume 42, P232-240 (2010). Search in Google Scholar

Mageswari, M, and Dr B Vidivelli. 2010.” The use of sheet glass powder as fine aggregate replacement in concrete. “The Open Civil Engineering Journal 4 (1). Search in Google Scholar

Niang, Arame, Nathalie Roy, Jean proulx, and Richard Gagné.2013. “Etude du comportement en compression de poteaux en béton armé incorporant de la poudre de verre” “Study of the compressive behavior of reinforced concrete columns incorporating glass powder”: Library and Archives Canada- Bibliothèque et Archives Canada, Ottawa. Search in Google Scholar

Rui Sun and all “Modeling of Reinforced Concrete Beams Exposed to Fire by Using a Spectral Approach”. Volume 2018,Article ID 6936371 https://doi.org/10.1155/2018/6936371 Search in Google Scholar

Shah M. Yunus, Timothy P. Pawlak, and R. D. Cook. “Solid Elements with Rotational Degrees of Freedom Part 1 and Part 2”. International Journal for Numerical Methods in Engineering. Vol. 31. 573-610. 1991. Search in Google Scholar

Shayan, Ahmad, and Aimin Xu. 2006. “performance of glass powder as a pozzolanic material in concrete: A field trial on concrete slabs” Cement and concrte research 36. Search in Google Scholar

Shigley, J. E.(1972), Mechanical Engineering Design, second edition, McGraw-Hill, pp. 93-97, 1972. Search in Google Scholar

Timoshenko, S. P., and J. N. Goodier (1970). Theory of Elasticity, 3rd ed., McGraw-Hill, pp. 409-420. Search in Google Scholar

ANSYS Contact Technology Guide, ANSYS Release 17.1 Documentation, ANSYS, Inc. Search in Google Scholar