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王勇
2023-03-07 14:09
近期热点

资料介绍

个人简介

王勇,工学博士,讲师 教育经历:2005.09-2009.06 西安工程大学 纺织工程 学士2009.09-2012.04 西安工程大学 纺织材料与纺织品设计 硕士2014.09-2019.06 东华大学 纺织材料与纺织品设计 博士2017.11-2018.11 澳大利亚联邦科学院(CSIRO) 联培博士工作经历:2012.05-2012.08 江苏阳光集团2012.09-2014.08 江苏悦达家纺有限公司2019.06-至今 安徽工程大学纺织服装学院 授权专利:[1] 变跨距轨道式耦合渐变色高弹差结构纺纱机构、方法及用途. 中国发明专利: CN 107099898 B(排名第一)[2] 变张力前置移动耦合包缠的渐变复合纺纱机构与方法及用途. 中国发明专利: CN 107217360 B(排名第二)[3] 长丝束变张力自然汇聚耦合包缠渐变纺纱机构与方法及用途. 中国发明专利: CN 107190391 B(排名第二)

研究领域

1)功能性复合纱结构设计与加工成形技术及相关理论;2)纱线基人工肌肉、应变传感器、柔弹电热器件等智能纺织品设计;3)多元功能化纺织面料的构筑与功效表征;4)纺织材料表面等离子体处理技术等

近期论文

[1] Wang Y, Yu W, Wang F. Experimental evaluation and modified Weibull characterization of the tensile behavior of tri-component elastic-conductive composite yarn. Textile Research Journal, 2018, 88(10): 1138-1149. (SCI)[2] Wang Y, Yu W, Wang F. Strand-spacing dependency on the tensile response of tri-component elastic-conductive composite yarns.Textile Research Journal,2019, 89(7): 1237-1245. (SCI)[3] Wang Y, Yu W, Gordon S, Wang F. Parametric study on some physical behaviors of tri-component elastic-conductive composite yarns with different elastane drafts. Textile Research Journal, 2019, 89(11): 2163-2176. (SCI)[4] Wang Y, Yu W, Wang F. Structural design and physical characteristics of modified ring-spun yarns intended for e-textiles: A comparative study. Textile Research Journal, 2019, 89(2): 121-132. (SCI)[5] Wang Y, Yu W, Wang F. Structural evolution and predictive modeling for nonlinear tensile behavior of tri-component elastic-conductive composite yarn during stretch. Textile Research Journal, 2019, 89(4): 487-497. (SCI)[6] Wang Y, Gordon S, Yu W, Wang F. Structural architecture of wearable materials based on tri-component elastic-conductive composite yarn: toward a Joule heating application. Textile Research Journal, 2019, 89(16): 3303-3311. (SCI)[7] Wang Y, Yu W, Wang F. Effects of process variables on physical characteristics of tri-component elastic-conductive composite yarns (t-ECCYs) using a modified ring frame. Industria Textila, 2018, 69(1): 17-23. (SCI)[8] Wang Y, Yu W. Surface characterization of low temperature plasma-induced cashmere fiber by air gas. Fibres & Textiles in Eastern Europe,2017, 25(5): 37-41. (SCI)[9] 王勇, 于伟东, 王府梅. 在线展丝环锭复合纺纱技术及设备. 纺织学报, 2016, 37(12): 160-166. (EI)[10] 王勇, 于伟东, 杨建忠. 低温等离子体处理山羊绒纤维力学性能的多指标优化. 毛纺科技, 2015, 43(11): 31-34. (CSCD)

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