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Some Investigations on Drilling of Aluminium Alloy from FEA-Based Simulation Using DEFORM-3D Read chapter Read first chapter

2020 | OriginalPaper | Chapter

31. Geometrical Modeling and Performance Analysis of Textile Composites Using Python Scripted Software Platforms

Authors : Pragati Priyanka, H. S. Mali, Anurag Dixit

Published in: Advances in Simulation, Product Design and Development

Publisher: Springer Singapore

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Abstract

Textile-reinforced composites offer enhanced strength to weight ratio, bidirectional strength and impact resistance available with multiple weaving patterns and orientations as three-dimensional (3D) orthogonal, angle interlock, two-dimensional (2D) fabrics, etc. To ensure the applicability of these composites, mechanical characterization is performed prior to use. This study aims at exploring all the geometrical modeling utilities including yarn geometry, weaving patterns, binder yarn details and interpolations between yarn nodes, available with the modeling tool and their characterization using finite element (FE) post-processor tools by assigning boundary, loading and constraint conditions, both Python encrypted tools. Textile fabrics are modeled as representative element volume (REV)/unit cell (using Graphical User Interface, Python script or C++ API functions), exported to Python encrypted FE tool for characterization. Further, REV is repeated in desired orientations to replicate the overall fabric characteristics.

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previous chapter Design, Fabrication and Simulation of Micro-EDM Machined AISI 316 SS Micro-channel Heat Sink
next chapter Electromagnetic Transient-Thermal Modeling of High-Frequency Induction Welding of Mild Steel Plates
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Priyanka, P., Dixit, A., Mali, H.S.: High-strength hybrid textile composites with carbon, kevlar, and E-glass fibers for impact-resistant structure-a review. Mech. Compos. Mater. 53(5), 685–704 (2017)CrossRef
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Dixit, A., Mali, H.S., Misra, R.K.: Unit cell model of woven fabric textile composite for multiscale analysis. Procedia. Eng. 68, 352–358 (2013)CrossRef
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Lin, H., Sherburn, M., Crookston, J., Long, A.C., Clifford, M.J., Jones, I.A.: Finite element modeling of fabric compression. Model. Simul. Mater. Sci. Eng. 16, 1–16 (2008)CrossRef
Metadata
Title
Geometrical Modeling and Performance Analysis of Textile Composites Using Python Scripted Software Platforms
Authors
Pragati Priyanka
H. S. Mali
Anurag Dixit
Copyright Year
2020
Publisher
Springer Singapore
Book
Advances in Simulation, Product Design and Development

Print ISBN: 978-981-329-486-8

Electronic ISBN: 978-981-329-487-5

Copyright Year: 2020

DOI
https://doi.org/10.1007/978-981-32-9487-5_31

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