Add to ORKGWe discuss a new mean-field theory to describe the compression behaviour of thick low-density fibre networks. The theory is based on the idea that in very large systems, the statistics of free segment lengths causes the stress-deformation behaviour to be quantitatively predictable. The theoretical ideas are supported by several different experimental characterisations. Firstly, we have carried out single-fibre buckling tests using hemp fibres, which indicate a maximum level of axial stress before deformation localization, after which the load-carrying ability of a fibre decays. Secondly, the stress-compression behaviour of over 130 different foam-formed lightweight fibre materials were measured. For kraft pulps with low fines content, the a...
AbstractThe mechanical behavior of an ensemble of fibers which are not bonded to each other subjecte...
In this paper we study numerically and experimentally non-reversible deformation of anisotropic, sem...
The success of traditional water forming is based on the ability of water to simultaneously transfer...
We discuss a new mean-field theory to describe the compression behaviour of thick low-density fibre ...
We have postulated a new theory to describe the stress-strain behaviour of low-density random fibre ...
We have developed a new theory to analyse the compression-stress behaviour of foam-formed fibre mate...
In this work we challenge some earlier theoretical ideas on the strength of lightweight fiber materi...
| openaire: EC/H2020/857470/EU//NOMATENWe study the compression of low-weight foam-formed materials ...
Novel lightweight cellulose fibre materials containing various strength enhancing polymeric and fibr...
Fiber networks are ubiquitous and are seen in both industrial materials (paper and nonwovens) and bi...
The rheological properties of fibrin networks have been of long-standing interest. As such there is ...
Fibrin networks are important components of extracellular proteinaceous gels that are widely used in...
In the present paper, highly porous fibre networks made of 316L fibres, with different fibre volume ...
The nonlinear and large displacement finite element method has been used to perform computer simulat...
Fibrous networks are ideal functional materials since they provide mechanical rigidity at low weight...
AbstractThe mechanical behavior of an ensemble of fibers which are not bonded to each other subjecte...
In this paper we study numerically and experimentally non-reversible deformation of anisotropic, sem...
The success of traditional water forming is based on the ability of water to simultaneously transfer...
We discuss a new mean-field theory to describe the compression behaviour of thick low-density fibre ...
We have postulated a new theory to describe the stress-strain behaviour of low-density random fibre ...
We have developed a new theory to analyse the compression-stress behaviour of foam-formed fibre mate...
In this work we challenge some earlier theoretical ideas on the strength of lightweight fiber materi...
| openaire: EC/H2020/857470/EU//NOMATENWe study the compression of low-weight foam-formed materials ...
Novel lightweight cellulose fibre materials containing various strength enhancing polymeric and fibr...
Fiber networks are ubiquitous and are seen in both industrial materials (paper and nonwovens) and bi...
The rheological properties of fibrin networks have been of long-standing interest. As such there is ...
Fibrin networks are important components of extracellular proteinaceous gels that are widely used in...
In the present paper, highly porous fibre networks made of 316L fibres, with different fibre volume ...
The nonlinear and large displacement finite element method has been used to perform computer simulat...
Fibrous networks are ideal functional materials since they provide mechanical rigidity at low weight...
AbstractThe mechanical behavior of an ensemble of fibers which are not bonded to each other subjecte...
In this paper we study numerically and experimentally non-reversible deformation of anisotropic, sem...
The success of traditional water forming is based on the ability of water to simultaneously transfer...