Modelling and simulation of the mechanical behaviour of weft-knitted fabrics for technical applications: Part II: 3D model based on the elastica theory

M. de Araújo; R. Fangueiro; H. Hong

Modelling and simulation of the mechanical behaviour of weft-knitted fabrics for technical applications: Part II: 3D model based on the elastica theory

M. de Araújo, R. Fangueiro, H. Hong

Research output: Journal article publication › Journal article › Academic research › peer-review

Abstract

This paper is in four parts. The first is related to general considerations and experimental analyses, and each of the others is related to different approaches to the theoretical analyses of the mechanical behaviour of weft-knitted fabrics and weft-knitted reinforced composites made of glass fibre. The objective is to find ways of improving the mechanical properties and simulating the mechanical behaviour of knitted fabrics and knitted reinforced composites so that the engineering design of such materials and structures may be improved. In Part II the first model is presented, a 3D model based on the classic elastica theory which is used to calculate the load-extension curves of a plain weft-knitted fabric in the coursewise and walewise directions. Good agreement is obtained between theoretical and experimental results.

Original language	English
Pages (from-to)	166-172
Number of pages	7
Journal	Autex Research Journal
Volume	3
Issue number	4
Publication status	Published - Dec 2003
Externally published	Yes

Keywords

Composite materials
Knitted fabric
Load-extension curve
Mechanical properties
Modelling
Technical textiles

ASJC Scopus subject areas

General Materials Science
Industrial and Manufacturing Engineering
Management of Technology and Innovation

Cite this

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abstract = "This paper is in four parts. The first is related to general considerations and experimental analyses, and each of the others is related to different approaches to the theoretical analyses of the mechanical behaviour of weft-knitted fabrics and weft-knitted reinforced composites made of glass fibre. The objective is to find ways of improving the mechanical properties and simulating the mechanical behaviour of knitted fabrics and knitted reinforced composites so that the engineering design of such materials and structures may be improved. In Part II the first model is presented, a 3D model based on the classic elastica theory which is used to calculate the load-extension curves of a plain weft-knitted fabric in the coursewise and walewise directions. Good agreement is obtained between theoretical and experimental results.",

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AU - Hong, H.

PY - 2003/12

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N2 - This paper is in four parts. The first is related to general considerations and experimental analyses, and each of the others is related to different approaches to the theoretical analyses of the mechanical behaviour of weft-knitted fabrics and weft-knitted reinforced composites made of glass fibre. The objective is to find ways of improving the mechanical properties and simulating the mechanical behaviour of knitted fabrics and knitted reinforced composites so that the engineering design of such materials and structures may be improved. In Part II the first model is presented, a 3D model based on the classic elastica theory which is used to calculate the load-extension curves of a plain weft-knitted fabric in the coursewise and walewise directions. Good agreement is obtained between theoretical and experimental results.

AB - This paper is in four parts. The first is related to general considerations and experimental analyses, and each of the others is related to different approaches to the theoretical analyses of the mechanical behaviour of weft-knitted fabrics and weft-knitted reinforced composites made of glass fibre. The objective is to find ways of improving the mechanical properties and simulating the mechanical behaviour of knitted fabrics and knitted reinforced composites so that the engineering design of such materials and structures may be improved. In Part II the first model is presented, a 3D model based on the classic elastica theory which is used to calculate the load-extension curves of a plain weft-knitted fabric in the coursewise and walewise directions. Good agreement is obtained between theoretical and experimental results.

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KW - Load-extension curve

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KW - Modelling

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Modelling and simulation of the mechanical behaviour of weft-knitted fabrics for technical applications: Part II: 3D model based on the elastica theory

Abstract

Keywords

ASJC Scopus subject areas

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