References
- Aoyama, K., & Shimazaki, K. (2007). A study on the prevention of seam slippage between two-ply fabrics using a drop feed and variable top feed sewing machine-influence of feed condition and fabric property on the slippage. Journal of the Japan Research Association for Textile end Uses, 48(8), 543-552. doi:10.11419/senshoshi1960.48.543
- Au K. F. (2011). Advances in knitting technology (1st ed.). Cambridge: Woodhead.
- Ayca, G. (2008). Investigation of the seam performance of PET/nylon- elastane woven fabrics. Textile Research Journal, 78(1), 21-27. doi:10.1177/0040517507082636
- Gersak, J. (2003). Investigations of the impact of fabric mechanical properties on garment appearance. Tekstil, 52(8), 368-379.
- Kim, H. A., & Kim, S. J. (2018). Effect of wet and dry thermal setting conditions of stretch fabric to fabric mechanical property and garment formability. Fashion & Textile Research Journal, 20(1), 83-92. doi:10.5805/SFTI.2018.20.1.83
- Kim, S. J., & Kim, H. A. (2010). Data base system on the fabric structural design and mechanical property of woven fabric. Woven Fabric Engineering. Rijeka, Croatia : SCIYO, 169-194.
- Komatsu, K., & Masako, N. (1978). Studies on the prediction of makin-up properties of garments - The prediction of making-up properties of men's suit fabrics for summer. Journal of the Textile Machinery Society of Japan, 31(11), 158-165. doi:10.4188/transjtmsj.31.11_T158
- Kyohei, T., Toyonori, N., Hiroyuki, K., Satoshi, A., Junki, K., & Kiyohiro, S. (2015). Influence of physical properties of wool fabrics on the poor appearance of jacket. Journal of Textile Engineering, 61(2), 17-21. doi:10.4188/jte.61.17
- Lindberg, J., Behre, B., & Dahlberg, B. (1961). Part III: Shearing and buckling of various commercial fabrics. Textile Research Journal, 31(2), 99-122. doi:10.1177/004051756103100203
- Ly, N. G., Tester, D. H., Buckenham, P., Roczniok, A. F., Adriaansen, A. L., Scaysbrook, F., & De, J. S. (1991). Simple instruments for quality control by finishers and tailors. Textile Research Journal, 61(7), 402-406 doi:10.1177/004051759106100707
- Morooka, H., & Niwa, M. (1978). Physical properties of fabrics relating to making-up and good appearance. Journal of the Textile Machinery Society of Japan, 24(4), 105-114. doi:10.4188/jte1955.24.105
- Nitta, M. (1980). Relation between the tailoring and fabric mechanical property-From the view of a tailoring expert. Journal of the Textile Machinery Society of Japan, 33(2), 152-155. doi:10.4188/transjtmsj.33.2_P152
- Niwa, M., Yamada, T., & Kawabata, S. (1981). Prediction of the appearance of men's suit from fabric mechanical properties and fabric hand-Part 3 : Analysis of men's winter suit using fabric mechanical properties and hand values. Journal of the Textile Machinery Society of Japan, 34(7), 135-148. doi:10.4188/transjtmsj. 34.7_T135
- Niwa, M., Yamada, T., & Kawabata, S. (1981). Prediction of the appearance of men's suit from fabric mechanical properties and fabric hand-Part 2 : Analysis of men's summer suit using fabric hand values-. Journal of the Textile Machinery Society of Japan, 34(4), 76-85. doi:10.4188/transjtmsj.34.4_T76
- Niwa, M., Inoue, M., & Kawabata, S. (2001). Objective evaluation of the handle of blankets. Textile Research Journal, 71(8), 701-710. doi:10.1177/004051750107100809
- Pavlinic, D. Z., Gersak, J., & Bratko, I. (2006). Predicting seam appearance quality. Textile Research Journal, 76(3), 235-242. doi:10.1177/0040517506061533
- Shishoo, R. L. (1989). Fabric properties and making up processes. Textile Asia, 20(2), 66-73.
- Takahashi, K., Nishimatsu, T., Kanai, H., Asada, S., Kishimoto, J., & Shivata, K. (2015). Influence of physical properties of wool fabrics on the poor appearance of jacket. Journal of Textile Engineering, 61(2), 17-21. doi:10.4188/jte.61.17
- Yamada, Y., Mori, M., & Niwa, M. (1995). A study on seam puckering(Part 2): Prediction of seam puckering of ladies' thin dress fabrics based on mechanical properties. Journal of the Japan Research Association for Textile End-Uses, 36(2), 240-248. doi: 10.11419/senshoshi1960.36.240