Numerical analysis of hygro‐thermal behaviour and damage of concrete at high temperature D Gawin, CE Majorana, BA Schrefler Mechanics of Cohesive‐frictional Materials: An International Journal on …, 1999 | 488 | 1999 |
Modelling of hygro-thermal behaviour of concrete at high temperature with thermo-chemical and mechanical material degradation D Gawin, F Pesavento, BA Schrefler Computer methods in applied mechanics and engineering 192 (13-14), 1731-1771, 2003 | 403 | 2003 |
Hygro‐thermo‐chemo‐mechanical modelling of concrete at early ages and beyond. Part I: hydration and hygro‐thermal phenomena D Gawin, F Pesavento, BA Schrefler International journal for numerical methods in engineering 67 (3), 299-331, 2006 | 381 | 2006 |
Thermo‐hydro‐mechanical analysis of partially saturated porous materials D Gawin, BA Schrefler, M Galindo Engineering computations 13 (7), 113-143, 1996 | 266 | 1996 |
Coupled heat, water and gas flow in deformable porous media D Gawin, P Baggio, BA Schrefler International Journal for numerical methods in fluids 20 (8‐9), 969-987, 1995 | 240 | 1995 |
Towards prediction of the thermal spalling risk through a multi-phase porous media model of concrete D Gawin, F Pesavento, BA Schrefler Computer methods in applied mechanics and engineering 195 (41-43), 5707-5729, 2006 | 234 | 2006 |
Hygro‐thermo‐chemo‐mechanical modelling of concrete at early ages and beyond. Part II: shrinkage and creep of concrete D Gawin, F Pesavento, BA Schrefler International journal for numerical methods in engineering 67 (3), 332-363, 2006 | 209 | 2006 |
Modelling of hygro‐thermal behaviour and damage of concrete at temperature above the critical point of water D Gawin, F Pesavento, BA Schrefler International Journal for Numerical and Analytical Methods in Geomechanics …, 2002 | 181 | 2002 |
Concrete at high temperature with application to tunnel fire BA Schrefler, P Brunello, D Gawin, CE Majorana, F Pesavento Computational mechanics 29, 43-51, 2002 | 156 | 2002 |
Modelling of deformations of high strength concrete at elevated temperatures D Gawin, F Pesavento, BA Schrefler Materials and Structures 37, 218-236, 2004 | 146 | 2004 |
Thermo‐hydro‐mechanical modelling of high performance concrete at high temperatures BA Schrefler, CE Majorana, GA Khoury, D Gawin Engineering Computations 19 (7), 787-819, 2002 | 143 | 2002 |
Simulation of damage–permeability coupling in hygro‐thermo‐mechanical analysis of concrete at high temperature D Gawin, F Pesavento, BA Schrefler Communications in numerical methods in engineering 18 (2), 113-119, 2002 | 123 | 2002 |
Modelling creep and shrinkage of concrete by means of effective stresses D Gawin, F Pesavento, BA Schrefler Materials and Structures 40, 579-591, 2007 | 118 | 2007 |
The effective stress principle: incremental or finite form? BA Schrefler, D Gawin International journal for numerical and analytical methods in geomechanics …, 1996 | 110 | 1996 |
What physical phenomena can be neglected when modelling concrete at high temperature? A comparative study. Part 1: Physical phenomena and mathematical model D Gawin, F Pesavento, BA Schrefler International journal of solids and structures 48 (13), 1927-1944, 2011 | 104 | 2011 |
Modelling of salt crystallization in building materials with microstructure–Poromechanical approach M Koniorczyk, D Gawin Construction and Building Materials 36, 860-873, 2012 | 103 | 2012 |
Modeling of internal curing in maturing mortar M Wyrzykowski, P Lura, F Pesavento, D Gawin Cement and Concrete Research 41 (12), 1349-1356, 2011 | 97 | 2011 |
Modeling evolution of frost damage in fully saturated porous materials exposed to variable hygro-thermal conditions M Koniorczyk, D Gawin, BA Schrefler Computer Methods in Applied Mechanics and Engineering 297, 38-61, 2015 | 96 | 2015 |
Modeling of water migration during internal curing with superabsorbent polymers M Wyrzykowski, P Lura, F Pesavento, D Gawin Journal of materials in civil engineering 24 (8), 1006-1016, 2012 | 89 | 2012 |
Heat and moisture transport in porous building materials containing salt M Koniorczyk, D Gawin Journal of building physics 31 (4), 279-300, 2008 | 86 | 2008 |