This thesis investigates the coupling between moisture, heat, and deformation in paperboard. The presented investigations are primarily conducted via macroscale continuum modeling but experimental characterisations are also made. The continuum modeling is presented in a mixture theory framework where the paperboard is considered as a porous media composed of three immiscible phases; a network of cellulose fibers, liquid water bound in or to the fibers, and moist air. The motion of each phase is described and the interactions of mass, energy, and momentum between the three phases are also considered. Emphasis in the current work is to derive a thermodynamically consistent model and all constitutive relations are derived with consideration to...
Continuum based elasto-plastic-damage models for paperboard have been established in this work. The ...
Paper, a hydrophilic material, is notably susceptible to deformations due to variations in moisture ...
A thermodynamically consistent model for heat and mass transfer in deformable wood fibers is develop...
A theory to describe deforming moist paperboard in environments where both temperature and pressure ...
Paperboard has been the basis for packaging materials used to aseptically store and protect food and...
Understanding the complex interplay of mass transport, heat transport and deformation in swelling ce...
Mixture theory is used to derive a triphasic model to describe processes in paperboard consisting of...
The response of moist paperboard exposed to extensive compression and heating in short periods of ti...
A thermodynamically consistent model for porous cellulose networks is proposed. A general theory is ...
A thermodynamically consistent model for multiphase flow in swelling cellulose based material is ado...
In this work a one-dimensional model for the mass and heat transport in the thickness direction of p...
Continuum based elasto-plastic models for paperboard have been established in the work herein. The t...
In this work we present a mathematical model describing the coupled heat and moisture transport in p...
A rate-dependent continuum model for paperboard is developed within a framework for finite strains a...
AbstractThis paper presents a method to predict the through-thickness moisture content distribution ...
Continuum based elasto-plastic-damage models for paperboard have been established in this work. The ...
Paper, a hydrophilic material, is notably susceptible to deformations due to variations in moisture ...
A thermodynamically consistent model for heat and mass transfer in deformable wood fibers is develop...
A theory to describe deforming moist paperboard in environments where both temperature and pressure ...
Paperboard has been the basis for packaging materials used to aseptically store and protect food and...
Understanding the complex interplay of mass transport, heat transport and deformation in swelling ce...
Mixture theory is used to derive a triphasic model to describe processes in paperboard consisting of...
The response of moist paperboard exposed to extensive compression and heating in short periods of ti...
A thermodynamically consistent model for porous cellulose networks is proposed. A general theory is ...
A thermodynamically consistent model for multiphase flow in swelling cellulose based material is ado...
In this work a one-dimensional model for the mass and heat transport in the thickness direction of p...
Continuum based elasto-plastic models for paperboard have been established in the work herein. The t...
In this work we present a mathematical model describing the coupled heat and moisture transport in p...
A rate-dependent continuum model for paperboard is developed within a framework for finite strains a...
AbstractThis paper presents a method to predict the through-thickness moisture content distribution ...
Continuum based elasto-plastic-damage models for paperboard have been established in this work. The ...
Paper, a hydrophilic material, is notably susceptible to deformations due to variations in moisture ...
A thermodynamically consistent model for heat and mass transfer in deformable wood fibers is develop...
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