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Licensed Unlicensed Requires Authentication Published by De Gruyter November 9, 2018

Mechanical properties of cellulose nanofibrils determined through atomistic molecular dynamics simulations

  • Jukka Ketoja EMAIL logo , Sami Paavilainen , James Liam McWhirter , Tomasz Róg , Juha Järvinen and Ilpo Vattulainen
From the journal Nordic Pulp & Paper Research Journal
https://doi.org/10.3183/npprj-2012-27-02-p282-286

Abstract

We have carried out atomistic molecular dynamics simulations to study the mechanical properties of cellulose nanofibrils in water and ethanol. The studied elementary fibrils consisted of regions having 34 or 36 cellulose chains whose cross-sectional diameter across the fibril was roughly 3.4 nm. The models used in simulations included both crystalline and non-crystalline regions, where the latter were designed to describe the essentials parts of amorphous cellulose nanofibrils. We examined different numbers of connecting chains between the crystallites, and found out that the elastic constants, inelastic deformations, and strength of the fibril depend on this number. For example, the elastic modulus for the whole fibril can be estimated to increase by 4 GPa for each additional connecting chain.

Keywords: Cellulose; Nanofibril; Amorphous; Strain; Stress; Molecular dynamics; Simulation
Published Online: 2018-11-09
Published in Print: 2012-05-01

© 2018 by Walter de Gruyter Berlin/Boston

From the journal
Nordic Pulp & Paper Research Journal
Nordic Pulp & Paper Research Journal
Volume 27 Issue 2
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Contents
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Flow conditions in the grooves of a Low-Consistency refiner
Multiphase simulation of fiber suspension flows using immersed boundary methods
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Mechanical retention – Influence of filler floc size and grammage of the fibre web
Influence of the history of loading during beating on the evolution of the drainage resistance (SR)
Numerical Investigation of Paperboard Forming
Exceptional pore size distribution in foam-formed fibre networks
Evaluation of the Scott bond test method
Testing of individual fiber-fiber joints under biaxial load and simultaneous analysis of deformation
Towards 3D analysis of pulp fibre networks at the fibre and bond levels
3D network simulations of paper structure
Automated 3D measurement of fiber cross section morphology in handsheets
The number of contacts in random fibre networks
Modeling the rheology of nanocellulose suspensions
Mechanical properties of cellulose nanofibrils determined through atomistic molecular dynamics simulations
Evaluation of the stress-strain properties in the thickness direction - particularly for thin and strong papers
Investigation of sample-size effects on in-plane tensile testing of paperboard
Use of the efficiency factor to account for previous straining on the tensile behavior of paper
Optical measurement of deformation of paper under tensile load
Stress-strain curve of paper revisited
Analysis of the plastic and elastic energy during the deformation and rupture of a paper sample using thermography
Fibre deformations induced by different mechanical treatments and their effect on zero-span strength
Application and interpretation of zero and short-span testing on nanofibre sheet materials
An analytic procedure for determination of fracture toughness of paper materials
Engineering fracture mechanics analysis of paper materials
Time-dependent, stochastic failure of paper and box
Simulation of creping pattern in tissue paper
The effects of process variables for GCC pre-flocculation on floc and handsheet properties
The effect of MFC on the pressability and paper properties of TMP and GCC based sheets
Modeling and simulation of paperboard edge wicking
Edge-wicking: Micro-fluidics of two-dimensional liquid penetration into porous structures
Mass transfer of water vapor, carbon dioxide and oxygen on modified cellulose fiber-based materials
Fluorescence model for multi-layer papers using conventional spectrophotometers
A partial explanation of the dependence between light scattering and light absorption in the Kubelka-Munk model
Significance of surface and bulk light scattering in microgloss and microgloss nonuniformity of coated papers: Influence of pigment characteristics and calendering conditions
Dependence between paper properties and spectral optical response of uncoated paper
Fold cracking of coated paper: The effect of pulp fiber composition and beating
Effects of coating formulation on coating thermal properties and coated paper print quality in xerography
Uniformity of liquid absorption by coatings - Technique and impact of coating composition
Specks masking by the coating layer in coated paper made from deinked pulp
Use of paper-making techniques for the production of Li-ion paper-batteries
Contacting paper-based supercapacitors to printed electronics on paper substrates
Supercapacitors with graphene coated paper electrodes
Conductivity of inkjet-printed PEDOT:PSS-SWCNTs on uncoated papers
Dynamics of moisture interaction with polyelectrolyte multilayers containing nanofibrillated cellulose
Anisotropic light propagation in paper
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