Journal ArticleDOI
Virtual characterization of MDF fiber network
TLDR
In this article, a virtual design method for medium density fiberboards (MDF) is proposed with the aim of optimizing the fiber orientation and lay-up of MDF. And the method estimates the stiffness and strength by using microstructure models of the MDF fiber network.Abstract:
A virtual design method for medium density fiberboards (MDF) is proposed with the aim to optimize the fiber orientation and lay-up of MDF. The new method estimates the stiffness and strength by using microstructure models of the MDF fiber network. The virtual design is used to improve the manufacturing technology of MDF plates with multilayer oriented fiber structure. Experimental investigations of the mechanical behavior of MDF microstructure for various fiber geometries, glue content and distribution are complicated, time consuming and expensive. On the other side, virtual microstructure design allows to develop a new wood fiber based material with less experimental work. Microstructure models help to better understand the non-linear damage mechanical behavior of a wood fiber network depending on fiber geometrical parameters. Such parameters as crack distribution and fiber deformation on micro-scale level are complicated to experimentally measure, but possible to model using computer simulations. The virtual design tool requires less empirical data. The model takes into account information on average wood fiber orientation, fiber diameter, fiber length and mechanical properties of wood fiber cell wall and glue. The numerical method for strength and stiffness analysis of MDF microstructure was calibrated using standard MDF with non-oriented fibers. It turned out that this method gives precise results for MDF with oriented fibers and even with multilayer structure. The proposed virtual microstructure design tool can significantly improve and speed-up the optimization manufacturing technology of MDF and other wood fiber based composites.read more
Citations
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Journal ArticleDOI
A review of nonlinear FFT-based computational homogenization methods
TL;DR: A condensed overview of results scattered throughout the literature is provided and guides the reader to the current state of the art in nonlinear computational homogenization methods using the fast Fourier transform.
Journal Article
Influence of refiner fibre quality and fibre modification treatments on properties of injection-moulded beech wood–plastic composites Part A Applied science and manufacturing
TL;DR: In this article, TMP fibres made from beech wood were produced using increasing refiner gap widths and thus with increasing fibre length and coarseness, which resulted in a decrease in water absorption and an improvement in flexural strength and modulus of elasticity of the wood-plastic composites.
Journal ArticleDOI
A Review of Recent Trends and Challenges in Computational Modeling of Paper and Paperboard at Different Scales
TL;DR: This work aims at giving a systematic review of the numerical approaches and obtained results published in recent years on paper and paperboard, focusing on both the recent trends and achievements as well as challenges and open questions.
Journal ArticleDOI
Circular development of recycled natural fibers from medium density fiberboard wastes
TL;DR: In this article, the characteristics and bonding properties of the recycled fibers from the MDF offcuts by the cooking and beating method were analyzed with XPS and SEM and XPS characterizations confirmed that there are some cured UF resin on the surface of some virgin fibers.
Journal ArticleDOI
Effect of Density and Fiber Size on Porosity and Thermal Conductivity of Fiberboard Mats
TL;DR: In this article, the effect of fiber size and mat density on porosity and thermal conductivity of fiberboard mat was investigated, and the results showed that fiber size was a dominant variable governing heat conduction and mat porosity.
References
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Hervé Moulinec,Pierre Suquet +1 more
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Artem Kulachenko,Tetsu Uesaka +1 more
TL;DR: In this paper, a finite element model for 3D random fiber networks was constructed to simulate deformation and failure behavior of networks with dynamic bonding/debonding properties, and a key feature of this new network model is the fiber-fiber interaction model that is based on AFM measurements from their earlier study.
Journal ArticleDOI
On contact between three-dimensional beams undergoing large deflections
Peter Wriggers,Giorgio Zavarise +1 more
TL;DR: In this paper, the point of contact between three-dimensional beams which undergo large motions is considered and the associated constraint conditions are formulated for a given beam discretization and associated contribution to the weak form has to be developed.
Journal ArticleDOI
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