Preparation and Characterization of Interconnected, Kraft Lignin‐B ased Carbon Fibrous Materials by Electrospinning
Inter‐connected carbon sub‐µm fibrous materials are prepared by electrospinning of Kraft
lignin solutions in DMF followed by thermal treatment consisting of oxidative …
lignin solutions in DMF followed by thermal treatment consisting of oxidative …
A homogenization approach for nonwoven materials based on fiber undulations and reorientation
This paper presents a new micromechanical based approach for the modeling of the highly
anisotropic and non-linear stiffening response of fibrous materials with random network …
anisotropic and non-linear stiffening response of fibrous materials with random network …
Finite element modelling of thermally bonded bicomponent fibre nonwovens: Tensile behaviour
Nonwovens are polymer-based engineered textiles with a random microstructure and hence
require a numerical model to predict their mechanical performance. This paper focuses on …
require a numerical model to predict their mechanical performance. This paper focuses on …
[PDF][PDF] An overview of nonwoven product development and modelling of their properties
KP Senthil, V Punitha - Journal of Textile Science and Engineering, 2017 - researchgate.net
Nonwoven fabric formation is highly emerging technology for production of cheapest
material of textile for different purposes. Nonwovens used in garments, home textiles …
material of textile for different purposes. Nonwovens used in garments, home textiles …
2D finite element analysis of thermally bonded nonwoven materials: Continuous and discontinuous models
X Hou, M Acar, VV Silberschmidt - Computational Materials Science, 2009 - Elsevier
Due to a random structure of nonwoven materials, their non-uniform local material properties
and nonlinear properties of single fibres, it is difficult to develop a numerical model that …
and nonlinear properties of single fibres, it is difficult to develop a numerical model that …
Mechanical behavior of thru-air bonded nonwoven structures
Thermally bonded structures are amongst the most widely used nonwoven structures, with
applications ranging from baby diapers to high performance geotextiles. These structures …
applications ranging from baby diapers to high performance geotextiles. These structures …
Algorithm to determine local basis weight of random fibrous networks with X-ray microtomography and SEM images
Analysis of the basis weight for random fibrous networks is important to understand their
microstructure, properties and performance. Two-dimensional microscopical images show in …
microstructure, properties and performance. Two-dimensional microscopical images show in …
Tensile behaviour of nonwoven structures: comparison with experimental results
Nonwoven structures have been recently explored for numerous novel applications ranging
from composites to scaffolds. The tensile property of nonwovens is a pre-requisite and …
from composites to scaffolds. The tensile property of nonwovens is a pre-requisite and …
Advance algorithm for two-dimensional fibrous-network generation
Fibrous networks are abundant in nature and commonly used in industry. However, their
geometrical modelling is challenging due to their complex microstructure. In this study, a …
geometrical modelling is challenging due to their complex microstructure. In this study, a …
Assessing Crimp of Fibres in Random Networks with 3D Imaging
The analysis of fibrous structures using micro-computer tomography (µCT) is becoming
more important as it provides an opportunity to characterise the mechanical properties and …
more important as it provides an opportunity to characterise the mechanical properties and …