Paper and paperboard are widely used in packaging products. The material behavior of
paper and paperboard is very complex because different scales need to be considered in …

This study presents a thermodynamically consistent continuum damage model for fiber-
based materials that combines elastoplasticity and damage mechanisms to simulate the …

Laminated paperboard and paper is widely used in packaging products. It generally exhibits
highly anisotropic and nonlinear mechanical behavior. The aim of this study is to describe …

A better physical understanding of mesoscale and microscale mechanisms behind
deformation and failure of paperboard material is important to optimize industrial packaging …

Background Experimental analyses of the 3D strain field evolution during loading allows for
better understanding of deformation and failure mechanisms at the meso-and microscale in …

The present study investigates torsional and compressive loading of a paperboard package.
Finite element (FE) analyses simulating the tests were performed to improve understanding …

Cellulose-based materials are increasingly finding applications in technology due to their
sustainability and biodegradability. The sensitivity of cellulose fiber networks to …

Creasing is an essential process to convert paperboards into packages since it enables
folding along well‐defined lines. The creasing process relies on purpose‐made damage …

Analytical relations to describe experimentally measured traction-separation laws are often
expressed in dimensionless quantities. The traction and the separation are commonly …

Paper of high extensibility has regained attention due to the recent increase in interest of 3D
paper forming for packaging. In-plane compaction has been reported as an effective process …