Development of a hysteresis model based on axisymmetric and homotopic properties to predict moisture transfer in building materials

Performance of Borel–Padé–Laplace integrator for the solution of stiff and non-stiff problems

(2022) Ahmad Deeb et al.   APPLIED MATHEMATICS AND COMPUTATION

Experimental and numerical highlighting of water vapor sorption hysteresis in the coupled heat and moisture transfers

(2021) M. Maaroufi et al.   Journal of Building Engineering

Hygrothermal evaluation of hemp concrete at wall and room scales: Impact of hysteresis and temperature dependency of sorption curves

(2020) Georges Costantine et al.   Journal of Building Physics

Critical assessment of a new mathematical model for hysteresis effects on heat and mass transfer in porous building material

(2020) Julien Berger et al.   INTERNATIONAL JOURNAL OF THERMAL SCIENCES

The gripped-box model: A simple and robust formulation of sorption hysteresis for lignocellulosic materials

(2018) Romain Rémond et al.   CONSTRUCTION AND BUILDING MATERIALS

Comparative Study of Three Models for Moisture Transfer in Hygroscopic Materials

(2018) Thomas Busser et al.   TRANSPORT IN POROUS MEDIA

Water sorption hysteresis in wood: I review and experimental patterns – geometric characteristics of scanning curves

(2017) Jingbo Shi et al.   HOLZFORSCHUNG

Combined effects of sorption hysteresis and its temperature dependency on wood materials and building enclosures – Part I: Measurements for model validation

(2016) Xiaobo Zhang et al.   BUILDING AND ENVIRONMENT

Numerical modelling of moisture transfers with hysteresis within cementitious materials: Verification and investigation of the effects of repeated wetting–drying boundary conditions

(2015) Zhidong Zhang et al.   CEMENT AND CONCRETE RESEARCH

Influence of sorption hysteresis on moisture transport in wood

(2015) Alessandra Patera et al.   WOOD SCIENCE AND TECHNOLOGY

A review and statistical study of existing hysteresis models for cementitious materials

(2014) Zhidong Zhang et al.   CEMENT AND CONCRETE RESEARCH

Hygrothermal behavior of bio-based building materials including hysteresis effects: Experimental and numerical analyses

(2014) D. Lelievre et al.   ENERGY AND BUILDINGS

Hysteretic Behaviour and Moisture Buffering of Hemp Concrete

(2014) Yacine Aït Oumeziane et al.   TRANSPORT IN POROUS MEDIA

Hysteretic moisture behavior of concrete: Modeling and analysis

(2012) Hannelore Derluyn et al.   CEMENT AND CONCRETE RESEARCH

Assessment of the variability of moisture transfer properties of High Performance Concrete from a multi-stage drying experiment

(2012) A. Trabelsi et al.   European Journal of Environmental and Civil Engineering

Water vapour desorption variability of in situ concrete and effects on drying simulations

(2011) A. Trabelsi et al.   MAGAZINE OF CONCRETE RESEARCH

Influence of sorption isotherm hysteresis effect on indoor climate and energy demand for heating

(2010) Jerzy Kwiatkowski et al.   APPLIED THERMAL ENGINEERING

Simulation of whole building coupled hygrothermal-airflow transfer in different climates

(2010) Menghao Qin et al.   ENERGY CONVERSION AND MANAGEMENT

A Numerical Approach for Non-Linear Moisture Flow in Porous Materials with Account to Sorption Hysteresis

(2010) B. Johannesson et al.   TRANSPORT IN POROUS MEDIA

Simulation of coupled heat and moisture transfer in air-conditioned buildings

(2009) Menghao Qin et al.   AUTOMATION IN CONSTRUCTION

General scaling rules of the hysteretic water retention function based on Mualem’s domain theory

(2009) Y. Mualem et al.   EUROPEAN JOURNAL OF SOIL SCIENCE

Experimental and theoretical investigation of non-isothermal transfer in hygroscopic building materials

(2008) Rafik Belarbi et al.   BUILDING AND ENVIRONMENT

A two-phase moisture transport model accounting for sorption hysteresis in layered porous building constructions

(2008) B. Johannesson et al.   BUILDING AND ENVIRONMENT

Modelling of hysteresis influence on mass transfer in building materials

(2008) Jerzy Kwiatkowski et al.   BUILDING AND ENVIRONMENT