3D Modeling of a Fabric based on its 3D Microstructure Image and Application of the Model of the Numerical Simulation of Heat Transfer |
Lee, Hyojeong
(Department of Clothing & Textiles, Chungnam National University)
Lee, Heeran (Department of Clothing & Textiles, Chungnam National University) Eom, Ran-i (Department of Clothing & Textiles, Chungnam National University) Lee, Yejin (Department of Clothing & Textiles, Chungnam National University) |
1 | Buchanan, S., Grigorash, A., Quinn, J. P., Mcilhagger, A. T. & Young, C. (2010). Modeling the Geometry of the Repeat Unit Cell of Three-Dimensional Weave Architectures. Journal of the Textile Institute, 101(7), 679-685. DOI |
2 | Chang, K. & Chen, C. (2011). 3D shape Engineering and Design Parameterizaton. Computer-Aided Design & Applications, 8(5), 681-692. DOI |
3 | Fayala, F., Alibi, H., Benltoufa, S. & Jemni, A. (2008). Neural Network for Predicting Thermal Conductivity of Knit Materials. Journal of Engineered Fibers and Fabrics, 3(4), 53-60. |
4 | Lee, Y. & Lee, B. (2012). A Novel Method for 3D Surcace and Solid Construction Analysis of Fabric Microstructure. The Korea Journal of Human Ecology, 21(3), 539-550. DOI |
5 | Li, S., Zhou, C., Yu, H. & Li, L. (2011). Formulation of a Unit Cell of a Reduced Size for Plain Weave Textile Composites. Computational Materials Science, 50(5), 1770-1780. DOI |
6 | Li, S. & Zou, Z. (2011). The Use of Central Reflection in the Formulation of Unit Cell for Micromechanical FEA. Mechanics of Materials, 43(12), 824-834. DOI |
7 | Ozgen, B. & Gong, H. (2011). Modelling of Yarn Flattening in Woven Fabrics. Textile Research Journal. 81(15), 1523-1531. DOI |
8 | Zhang, J., Wang, X. & Palmer, S. (2010). Objective Pilling Evaluation of Nonwoven Fabrics. Fiber and Ploymers, 11(1), 115-120. DOI |