Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
Due to the rapid production of warp knitted jacquard spacer fabric in recent years, as well as physical properties of light, heat conduction, buffering effect, compression resistance, moisture permeability and air permeability, warp knitted spacer fabric has been used more and more widely in clothing, shoes and hats, as well as in fields such as medical care, construction engineering, safety protection and others. The design demand for different patterns and functions is also increasing gradually. Jacquard designers established a complete design model which plays a certain guiding role in the design of warp knitted spacer fabric. It brings innovative design to the surface pattern and structure of the fabric, making it more functional. The adoption of computer aided design also has a certain guiding role in the design process. Taking the CAD pattern design of warp knitted spacer fabric as an example, which combines the functional characteristics of the fabric and the jacquard pattern. Thus, we design fabric products that meet the market demand and initiate fashion trends.
Słowa kluczowe
Czasopismo
Rocznik
Strony
67--70
Opis fizyczny
Bibliogr. 10 poz., rys., tab.
Twórcy
autor
- School of Textile Design, Sanmyung University, Seoul, Korea
autor
- Engineering Research Center of Knitting Technology, Ministry of Education, College of Textile Science and Engineering, Jiangnan University, Wuxi 214122, China
Bibliografia
- 1. Nazarova MV. Development a Method for the Automatic Design of jacquard Fabrics. Izvestiya Vvsshikh Uchebnykh Zavedenii, Seriya Tekstil’noi Promyshlennosti Russian 2002; (4-5): 155-157.
- 2. Karl Mayer. HKS 4(EL) and KS 4P(EL) High production Tricot Machines for Plain Materials and Pile Warp Knitted Fabrics, Kettenwirk-Praxis, 1994; (1): 43-48.
- 3. Jing GM, Feng XW. A Simulation Model of Lace Made on a Multibar Raschel Machine. FIBERS & TEXTILES in Eastern Europe 2008; 16, 2(67): 58-60.
- 4. Xu X, Harada K. Automatic Surface Renconstruction with Alpha-Shape Method. Visual Computer 2003; 19(7-8): 431-443.
- 5. Floater M S, Hormann K. Surface Parameterization: A Tutorial and Survey. In Advances In Multiresolution for Geometric Modelling 2005; 57-186.
- 6. Xinxin Li, Gaomin Jiang, Aijun Zhang, Jonathan Y Chen. Modeling and Realization for Appreaance Visualization of Textronic Laces. Textile Research Journal 2019; 89, 21-22: 4526-4536.
- 7. Xinxin Li. Meiling Tian, Yanping Liu. A Spacer Fabric-Based three-Dimensional Patterning Method with Two-Colored jacquard Syatems. First Published December 23, 2020.
- 8. Ying Xiong, Xuhng Miao, Aijun Zhang, Gaoming Jing. Computer Simulation for Warp-Knitted Brushed Facbric with Patterned Piles. Textile Research Journal 2015; 86, 15: 1659-1667.
- 9. Chen TH. The Effect of Air Per-Meability and Water Vapor Permeability of Cleanroom Clothing on Physiological Responses and Wear Comfort. Journal of Occupational and Environmental Hy-giene 2014; 11(6): 366-376.
- 10. Zhang Yan, Hu Hong, Kyosev Yordan, Liu Yanping. Finite Element Modeling Of 3D Spacer Fabric: Effect Of The Geometric Variation And Amount Of Spacer Yarns. Published in Composite Structures in March, 2020.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-2f5174a4-ccce-4aad-b99c-c257843c78f3