Photosensitizer-Embedded Polyacrylonitrile Nanofibers as Antimicrobial Non-Woven Textile

Abstract Aiming for sustainable eco-friendly craft/design practice, this design research explored upcycling-practice of OPP plastic waste using traditional technology to create an alternative raw material for textile craft. By combining cultural investigation into the textile-making tradition with Cradle-to-Cradle design principles, we identified the potential of traditional technology as an ecologically responsible production process. We also developed upcycling method to process OPP plastic waste material. This research resulted in: (1) thread-making techniques that produce different sizes of thread as raw materials and hand-woven textile, (2) revitalized endangered indigenous technology of craft-making that had been a part of human-nature ecology, (3) eco-design education that can be accepted by local textile craft community, and (4) textile craft products that express the local identity and promote environmental care.

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Woven textile design

Textile Design ◽

10.1533/9780857092564.1.31 ◽

2011 ◽

pp. 31-54

Author(s):

N.A. Redmore

Keyword(s):

Textile Design ◽

Woven Textile

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A Bi-Directional Reflectance Function for Woven Textiles

Volume 6: 18th Computers in Engineering Conference ◽

10.1115/detc98/cie-5547 ◽

1998 ◽

Author(s):

Brad Hunting ◽

Stephen Derby ◽

Raymond Puffer

Keyword(s):

Surface Properties ◽

Broad Class ◽

Fiber Surface ◽

Anisotropic Model ◽

Reflectance Function ◽

Function Models ◽

Woven Textile ◽

Special Case ◽

Reflectance Data ◽

Directional Reflectance

Abstract This paper presents a novel bi-directional reflectance function for woven textile substrates. The new reflectance function models a broad class of woven substrates, including substrates with significant anisotropic reflectance. Isotropic behavior is handled as a special case of the anisotropic model. The new model recognizes fiber surface properties, thread geometry, and weave geometry. Experimental reflectance data is presented.

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Fiber-level structure recognition of woven textile

2009 IEEE International Workshop on Haptic Audio visual Environments and Games ◽

10.1109/have.2009.5356115 ◽

2009 ◽

Author(s):

Xin Wang ◽

Nicolas D. Georganas ◽

Emil M. Petriu

Keyword(s):

Level Structure ◽

Structure Recognition ◽

Woven Textile

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THE APPLICATION OF COLOUR TO WOVEN TEXTILE FABRICS

Journal of the Textile Institute Proceedings ◽

10.1080/19447013908687463 ◽

1939 ◽

Vol 30 (4) ◽

pp. P92-P95

Author(s):

Leonard Bellwood

Keyword(s):

Textile Fabrics ◽

Woven Textile

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In-plane Shear Measurements of Textile Composites with Large Unit Cells using the Plate Twist Test

Polymers and Polymer Composites ◽

10.1177/096739110201000703 ◽

2002 ◽

Vol 10 (7) ◽

pp. 511-520

Author(s):

G. Weissenbach ◽

D. Brown ◽

L. Limmer

Keyword(s):

Textile Composites ◽

Test Method ◽

Shear Behaviour ◽

Specimen Preparation ◽

Plane Shear ◽

Test Fixture ◽

Large Unit ◽

Unit Cells ◽

Set Up ◽

Woven Textile

The application of the plate twist test method to 3D-woven textile composites was investigated using both numerical analyses of the test set-up as well as experimental results. Comparisons with the widely used V-notched beam shear and 10°-off-axis tension tests are introduced in an attempt to identify the true in-plane shear response. The results of this study demonstrate that with careful specimen preparation and an adequate test fixture precise in-plane shear modulus data can be obtained. Moreover, for 3D-woven textile composites with their large unit cells the plate twist test appears to be superior in revealing the “true” in-plane shear behaviour.

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