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Numerical Heat Transfer, Part A: Applications
An International Journal of Computation and Methodology
Volume 29, 1996 - Issue 4
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Original Articles

COMPUTATIONAL HEAT AND MASS TRANSPORT IN CONCRETE WALLS EXPOSED TO FIRE

Ali K. Abdel-Rahman Portland Cement Association, 5420 Old Orchard Road, Skokie, Illinois, 60077-1083, USA
&
Gamal N. Ahmed Portland Cement Association, 5420 Old Orchard Road, Skokie, Illinois, 60077-1083, USA
Pages 373-395 | Received 30 Aug 1995, Accepted 24 Oct 1995, Published online: 03 Apr 2007

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MarcusV. G. de Morais, Benoît Bary, Guillaume Ranc, Stefano Dal Pont & Sabine Durand. (2009) Comparative Analysis of Coupled Thermo-Hydro-Mechanical Models for Concrete Exposed to Moderate Temperatures. Numerical Heat Transfer, Part A: Applications 55:7, pages 654-682.
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RichardK. K. Yuen, W. K. Kwok, S. M. Lo & J. Liang. (2007) Heat and Mass Transfer in Concrete at Elevated Temperature. Numerical Heat Transfer, Part A: Applications 51:5, pages 469-494.
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Articles from other publishers (20)

Ahmed M Ebid, Kennedy C Onyelowe, Denise-Penelope N Kontoni, Alberto Quintana Gallardo & Shadi Hanandeh. (2023) Heat and mass transfer in different concrete structures: a study of self-compacting concrete and geopolymer concrete. International Journal of Low-Carbon Technologies 18, pages 404-411.
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Ibrahim Almeshal, B. H. Abu Bakar & Bassam A. Tayeh. (2022) Behaviour of Reinforced Concrete Walls Under Fire: A Review. Fire Technology 58:5, pages 2589-2639.
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Zobaer Saleheen, Renga Rao Krishnamoorthy & Ali Nadjai. (2022) A review on behavior, material properties and finite element simulation of concrete tunnel linings under fire. Tunnelling and Underground Space Technology 126, pages 104534.
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Christoph Pohl, Vít Šmilauer & Jörg F. Unger. (2021) A Three-Phase Transport Model for High-Temperature Concrete Simulations Validated with X-ray CT Data. Materials 14:17, pages 5047.
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M.H. Moreira, S. Dal Pont, R.F. Ausas, T.M. Cunha, A.P. Luz & V.C. Pandolfelli. (2021) Direct comparison of multi and single-phase models depicting the drying process of refractory castables. Open Ceramics 6, pages 100111.
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M.H. Moreira, R.F. Ausas, S. Dal Pont, P.I. Pelissari, A.P. Luz & V.C. Pandolfelli. (2021) Towards a single-phase mixed formulation of refractory castables and structural concrete at high temperatures. International Journal of Heat and Mass Transfer 171, pages 121064.
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Tathagata Roy & Vasant Matsagar. (2020) Fire fragility of reinforced concrete panels under transverse out-of-plane and compressive in-plane loads. Fire Safety Journal 113, pages 102976.
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Fekri Meftah, Francesco Pesavento, Colin Davie, Stefano Dal Pont, Matthias Zeiml, Manfred Korzen & Alain Millard. 2019. Modelling of Concrete Behaviour at High Temperature. Modelling of Concrete Behaviour at High Temperature 27 65 .
Manar A. Al Fadul & Kevin R. Mackie. (2018) Numerical Analysis of Coupled Heat and Mass Transfer Phenomena in Concrete at Elevated Temperatures. Transport in Porous Media 122:2, pages 437-458.
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Yiming Zhang, Matthias Zeiml, Christian Pichler & Roman Lackner. (2014) Model-based risk assessment of concrete spalling in tunnel linings under fire loading. Engineering Structures 77, pages 207-215.
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John A. Purkiss & Long-Yuan Li. 2013. Fire Safety Engineering Design of Structures. Fire Safety Engineering Design of Structures 301 328 .
Khaled A. Mahmoud & Ali K. Abdel-Rahman. (2012) Two-Dimensional Thermal and Structural Modelling of HSC Columns Exposed to Fire. Arabian Journal for Science and Engineering 38:8, pages 2009-2022.
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Dariusz Gawin, Francesco Pesavento & Bernhard A. Schrefler. (2011) What physical phenomena can be neglected when modelling concrete at high temperature? A comparative study. Part 1: Physical phenomena and mathematical model. International Journal of Solids and Structures 48:13, pages 1927-1944.
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Dariusz Gawin, Francesco Pesavento & Bernhard A. Schrefler. (2011) What physical phenomena can be neglected when modelling concrete at high temperature? A comparative study. Part 2: Comparison between models. International Journal of Solids and Structures 48:13, pages 1945-1961.
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C.N. Ang & Y.C. Wang. (2009) Effect of moisture transfer on specific heat of gypsum plasterboard at high temperatures. Construction and Building Materials 23:2, pages 675-686.
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C. Qian, H. Wang, W. Sun, Z. Guo, P. Stroeven, J. A. Purkiss & L. Y. Li. (2006) Discussion: Numerical calculations of vapour pressure in concrete exposed to fire. Magazine of Concrete Research 58:7, pages 487-488.
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L y Li, J A Purkiss & R T Tenchev. (2006) An engineering model for coupled heat and mass transfer analysis in heated concrete. Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 216:2, pages 213-222.
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R. T. Tenchev, L. Y. Li, J. A. Purkiss & B. H. Khalafallah. (2001) Finite element analysis of coupled heat and mass transfer in concrete when it is in a fire. Magazine of Concrete Research 53:2, pages 117-125.
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E.R.G. Eckert, R.J. Goldstein, W.E. Ibele, T.W. Simon, T.H. Kuehn, P.J. Strykowski, K.K. Tamma, A. Bar-Cohen, J.V.R. Heberlein, J.H. Davidson, J. Bischof, F. Kulacki & U. Kortshagen. (2000) Heat transfer — a review of 1996 literature. International Journal of Heat and Mass Transfer 43:8, pages 1273-1371.
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J.W. Ju & Y. Zhang. (1998) Axisymmetric thermomechanical constitutive and damage modeling for airfield concrete pavement under transient high temperature. Mechanics of Materials 29:3-4, pages 307-323.
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