Prediction of deformation behavior of single jersey cotton knitted fabrics using finite element method
Autor: | N. Anbumani, J. C. Sakthivel, E. Perumalsamy |
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Rok vydání: | 2014 |
Předmět: |
Engineering
Polymers and Plastics business.industry Materials Science (miscellaneous) Stress–strain curve Uniaxial tension Structural engineering Deformation (meteorology) General Business Management and Accounting Finite element method Loop length Ultimate tensile strength Business Management and Accounting (miscellaneous) Composite material Material properties business Tensile testing |
Zdroj: | International Journal of Clothing Science and Technology. 26:222-234 |
ISSN: | 0955-6222 |
DOI: | 10.1108/ijcst-04-2013-0037 |
Popis: | Purpose – The purpose of this paper is to elucidate the stress-strain relationships of single-jersey knitted fabrics from uniaxial tensile test followed by deformation behavior using finite element analysis. In order to elaborate the study, high, medium and low tightness knitted fabrics were selected and deformation of fabrics analyzed in course, wales and bias directions (0, 45 and 90 degrees). Design/methodology/approach – This study focussed on uni-axial tensile test of produced test samples using Instron 6021 tester and a development of single-jersey knitted loop model using Auto Desk Inventor software (ADI). The knitted fabric material properties and knitted loop model was imported to ANSYS 12.0 software. Findings – Due to structural changes the tightness and thickness of knitted fabric decreases with increase in loop length The tensile result shows maximum breaking strength at course direction (13.43 kg f/mm2 at 2.7 mm) and maximum extension at wales direction (165.77 kg f/mm2 at 3.3 mm). When the loop length increases, the elongation of fabrics increased and load carrying capacity of fabrics reduced. The Young's modulus, Poisson's ratio and shear modulus of fabrics reduced with increase in loop length. The deformation of fabrics increased with increase in loop length. The increase in loop length gives large amount of structural changes and it is due to slacking or jamming in loops and loosening in dimensions. When comparing the deformation results, the variation within the fabric is higher and structural damage little more when increasing the loop length of the fabric. Originality/value – From ANOVA test, stress and strain distribution was statistically significant among course, wales and bias directions at 95 percent confidence level. The values got from Instron test indicates that testing direction can alter its deformation. In deformation analysis, comparing both experimental and prediction, high amount of structural changes observed in wales direction. The used tetrahedral elements can be used for contact analysis with high accuracy. For non-linear problems, consistent approach was proposed which makes the sense to compare with experimental methods. The proposed model will make possible developments and the preliminary validation tests shows good agreement with experimental data. |
Databáze: | OpenAIRE |
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