胡吉永

姓名:胡吉永

职称:教授、博导

办公电话:67792680

通讯地址:菲律宾环球360官网首页4051

电子邮箱:hujy@dhu.edu.cn


  • 主要经历
  • 教学内容
  • 研究成果
  • 获奖荣誉
  • 更多信息
  • 主要经历

    教育背景

    1999.9-2003.7:五邑大学纺织服装系,学士

    2003.9-2008.10:东华大学菲律宾环球360官网首页,博士

    2006.6~2007.12:法国鲁贝高等菲律宾环球360官网首页GEMTEX实验室,交换生


    工作经历

    2008.11~2010.12 东华大学菲律宾环球360官网首页,博士后

    2008.12~2010.8 香港理工大学纺织制衣系,博士后

    2011.1~至今 东华大学菲律宾环球360官网首页,教师




  • 教学内容

    研究方向

    纺织人体工学理论及应用;

    电子信息智能纺织品的设计、制备及评价技术;

    功能纺织品成形技术;


    教授课程

    纺织结构成型学2:织物成形

    机织学

    智能纺织材料与传感器

    现代纺织与医学


  • 研究成果

    科研项目

    主持国家自然科学基金、上海市自然科学基金、中国博士后科学基金(一等)和企业委托项目多项,参与科技部“十三五”重大专项、军民融合、中国工程院重点咨询项目、纺织工业联合会纺织高等教育改革项目等。主要在研及完成项目如下:

    1.阳光味道化学成分及产生条件研究,企业委托,2022

    2.薄层编织发热体,企业委托,2022

    3.随身体征连续监测多功能纺织传感材料关键技术研发及产业化,企业委托,2022

    4.可伸缩柔性混合传感纱电气特性的工艺调控及原理, 上海市自然科学基金,2022

    5.肌电信号采集的柔性电极和电线材料,企业委托,2021

    6.电加热导电纱的制备及产品开发技术,企业委托,2021

    7.校服设计技术方案咨询,企业委托,2021

    8.织物电路电喷印射流行为的材料物理作用及调控机制,上海市自然科学基金,2020

    9.智能运动传感面料的制备及产品开发技术,企业委托,2020

    10.小样织机定制服务,企业委托,2019

    11.智能发热型滑雪袜的设计与研发,企业委托,2019

    12.全棉芯弹纱弹力牛仔布整理技术及产业化,企业委托,2018

    13.特种功能纱自动织样机开发,企业委托,2018

    14.私人定制量体衣系统设计与开发,企业委托,2018

    15.Siren Care智能纺织--包覆线编织电线自动化生产技术,企业委托,2018

    16.全印刷谐振型超高频RFID织物标签生产技术的研发及产业化,2017年度“丹凤朝阳”人才计划,重点项目,2018

    17.纺织品的保形机理与修饰原理研究,国家重点研发计划,2017

    18.全印刷谐振型无芯RFID织物标签的研发及产业化,2017年镇江市“金山英才”镇江制造2025领军人才计划,重点项目,2017

    19.全棉自然弹牛仔布生产关键技术及产业化,企业委托,2017

    20.织物基UHF RFID 标签制备技术研究及其应用, 企业委托,2016

    21.基于穿着衣物主客观保暖评价方法研究, 企业委托, 2015

    22.纤维基谐振型超高频无芯RFID标签的开发,中国博士后科学基金(57批,一等资助),资助号:2015M570307,起讫时间:2014

    23.表面质地在触觉传感中的编码模式,国家自然科学基金青年科学基金,资助号:No.51405079),起讫时间:2015

    24.织物表面层层组装微波吸收膜的快速构筑及其精确调控,国家自然科学基金青年基金项目,资助号:No.21304016,起讫时间:2014

    25.针肋型高散热织物生产技术,企业委托,2014

    26.织物纹理触觉传感的信息融合和识别机理,上海市自然科学基金项目,资助号12ZR1400500,起讫时间:2012 


    代表论文

    [1]Zheng Cong, Hu Jiyong*, Jiang Jinhua. Effect of fabric structure on the performance of screen-printed ultra-high frequency radio frequency identification tag antenna for wireless radio frequency energy harvesting, Journal of Industrial Textiles, 2022, https://doi.org/10.1177/15280837221109641

    [2]Zhang Yong, Meng Fenye, Hu Jiyong*, Yan Xiong, Yang Xudong. The Influence of structure uniformity on resonant frequency of ultra-high frequency radio frequency identification tag thread with normal mode helix dipole antenna, Journal of Industrial Textiles, 2022, https://doi.org/10.1177/15280837221123592

    [3]Zhang Yong, Meng Fenye, Hu Jiyong*, Yan Xiong, Yang Xudong. Physical relationship between resonant frequency and structure parameters of normal mode helix dipole antenna for UHF RFID tag thread, Textile Research Journal, 2022,online

    [4]马国栋,郭雯静,胡吉永*. 高密机织物表面特性对电喷印电线成形性和导电性的影响.[J].丝绸, 2022,在线

    [5]王浣雨,孟粉叶,胡吉永*,杨旭东.智能纺织品用温度传感纱研究进展,丝绸,2022,接收

    [6]Huang Fei, Hu Jiyong*, Yan Xiong, Meng Fenye. High-linearity, ultralow-detection-limit and rapid-response strain sensing yarn for data gloves. Journal of Industrial Textiles, 2022, 2022, 51(3S): 4554S–4570S

    [7]郑聪,胡吉永*等,可穿戴NFC织物天线及能量传输的研究进展,东华大学学报(自然科学版),2021, 47(5):37-46,67

    [8]Zhang YaYa, Hu Jiyong*, Yan Xiong, Tu Huating, The prediction of loss tangent of sewed multilayer fabric, Textile Research Journal, 2021, DOI: 10.1177/00405175211064249

    [9]Zhang Yaya, Hu Jiyong*, The equivalent resistance model of double-layer embroidered conductive lines on nonwoven fabric, Journal of Industrial Textile, 2021, DOI: 10.1177/15280837211049481

    [10]Jiang Lihong, Hong Hong, Hu Jiyong*, Xiong Yan, Fabrication and seamless integration of insensitive-bending fully-printed all-in-one fabric-based supercapacitors based on cost-effective MWCNTs electrodes, ACS Applied Materials & Interfaces, 2022, 14(10): 12214-12222

    [11]Jiang Lihong, Hong Hong, Hu Jiyong*, Xiong Yan. Development of flexible supercapacitors with coplanar integrated multi-walled carbon nanotubes/textile electrode and current collectors, Journal of Materials Science: Materials in Electronics, 2022, 33:5297–5310

    [12]Guo Wenjing, Hu Jiyong*, Yan Xiong. Influence of process parameters on the characteristics of electrohydrodynamic-printed UV-curing conductive lines on the fabric, Journal of Micromechanics and Microengineering, 2022, 32(34): 035003.

    [13]Fei Huang, Jiyong Hu*, Xiong Yan. Review of Fiber- or Yarn-Based Wearable Resistive Strain Sensors: Structural Design, Fabrication Technologies and Applications [J]. Textiles, 2022, 2(1), 81-111

    [14]Guo Wenjign, Hu Jiyong*, Yan Xiong. Effect of solvent evaporation rate of silver ink on the electrohydrodynamic-printing formability of textile-based printing electronics, Textile Research Journal, 2022, 92(5-6): 886-896

    [15]邹艳玲,郑聪,江心雨,胡吉永*,基于RFID技术的无线无源纺织应变传感器研究进展,丝绸,2021,58(8):53-59

    [16]张千,胡吉永*,杨旭东,丝网印刷织物基UHF RFID标签的耐洗涤性研究进展,现代纺织技术,2021,29(5):62-70 

    [17]张千,彭飞,胡吉永*,杨旭东等,丝印织物基UHF-RFID标签的耐机洗性及涂层优化,东华大学学报(自然科学版). 2021,47(03):60-67

    [18]Jiang Lihong, Hong Hong, Hu Jiyong, Yan Xiong*. Facile thermoplastic polyurethane-based multi-walled carbon nanotube ink for fabrication of screen-printed fabric electrodes of wearable e-textiles with high adhesion and resistance stability under large deformation. Textile Research Journal, 2021, 91(21-22): 2487-2499

    [19]Hong Hong, Jiang Lihong, Tu Huating, Hu Jiyong*, Moon Kyoung-Sik, Yan Xiong, Wong Ching-ping. Rational design and evaluation of UV curable nano-silver ink applied in highly conductive textile-based electrodes and flexible silver-zinc batteries, Journal of Materials Science & Technology, 2022, 101: 294-307

    [20]Tu Huating, Zhang Yaya, Hong Hong, Hu Jiyong* & Ding Xin. Design and Characterization of Novel Fabric-based Multi-resonators for Wearable Chipless RFID Applications, Textile Research Journal, 2021, 91(15-16): 1830-1840

    [21]Hong Hong, Jiang Lihong, Tu Huating, Hu Jiyong*, Yan Xiong. Formulation of UV curable nano-silver conductive ink for direct screen-printing on common fabric substrates for wearable electronic applications, Smart Materials and Structures, 2021, 30(4): 045001

    [22]Hong Hong, Hu Jiyong*, Moon K S, Yan Xiong, Wong C. Rheological properties and screen printability of UV curable conductive ink for flexible and washable E-textiles Journal of Materials Science & Technology, 2021, 67: 145-155

    [23]Tu Huating, Hu Jiyong*, Ding Xin. Measurement of the Conductivity of Screen Printing Films at Microwave Frequency Employing Resonant Method, Journal of Electronic Materials, 2021, 50: 521–527

    [24]Yang Xudong, Chen Yinxue, Hu Jiyong*. Effect of stitch structure on reading performance of fabric-based embroidered UHF RFID tags, FIBRES & TEXTILES in Eastern Europe, 2021, 29(2): 45-51

    [25]Tu Huating, Zhang Yaya, Hong Hong, Hu Jiyong * & Ding Xin: A strip line ring resonator for dielectric properties measurement of thin fabric, The Journal of The Textile Institute, 2021, 112(11): 1772-1778

    [26]Zhang Yaya, Hu Jiyong*, Yan Xiong. Dielectric constants of sewed multilayer fabric for wearable e-textiles, Journal of Industrial Textiles, 2020, DOI: 10.1177/1528083720915542

    [27]Zhang Yong, Hu Jiyong*, Yan Xiong, Yang Xudong. Structure optimization of UHF RFID tag thread based on normal mode helix dipole antenna, Textile Research Journal, 2021, 91(5-6): 523-32

    [28]Zhang Yaya, Hu Jiyong*, Yan Xiong*. Equivalent model of the DC resistance of nonwoven-based embroidery conductive lines with embroidery parameters, FIBRES & TEXTILES in Eastern Europe, 2020; 28(2): 35-42

    [29]Hong Hong, Hu Jiyong*, Yan Xiong. Effect of the basic surface properties of woven lining fabric on printing precision and electrical performance of screen-printed conductive lines, Textile Research Journal, 2020,90(11-12):1212-1223

    [30]Hong Hong, Hu Jiyong*, Yan Xiong. UV curable conductive ink for the fabrication of textile-based conductive circuits and wearable UHF RFID tags, ACS Applied Materials & Interfaces, 2019, 11(30):27318−27326

    [31]Nie Wenqi, Weng Wei, Liu Lianmei, Zhang Shu, Yang Xuodong, Hu Jiyong, et al. Robust rope supercapacitor constructed by programmed graphene composite fibers with high and stable performance, Carbon, 2019, 146: 329-336

    [32]周淑雯, 权颖楠, 辛敏杰, 李佳琳, 胡吉永*, 杨旭东. 包覆度对包覆纱应变传感器基本传感性能的影响,上海纺织科技,2018,46(12):33-38

    [33]Hu Jiyong*, Gu Yuanyuan, Zhang Hele, Zhu Yinda, Yang Xudong. Effect of electrode material on piezoelectric output of PVDF sensor with electrospinning, Advanced Materials Letters, 2018,9(5) 363-368

    [34]Lan Chuntao, Li Chenglong, Hu Jiyong, Yang Shuguang, Qiu Yiping, Ma Ying. High-loading carbon nanotube/polymer nanocomposite fabric coatings obtained by capillarity-assisted “excess assembly” for electromagnetic interference shielding, Advanced Materials Interfaces,2018, 5(13): 1800116

    [35]Hu Jiyong*, Gu Yuanyuan, Zhu Yinda, Effect of electrospinning parameters on piezoelectric properties of electrospun PVDF nanofibrous mats under cyclic compression, Journal of The Textile Institute, 2018, 109(7): 843-850 

    [36]Li Tingxiao, Ding Xin, Tian Lingling, Hu Jiyong, Yang Xudong. The control of beads diameter of bead-on-string electrospun nanofibers and the corresponding release behaviors of embedded drugs. Materials Science & Engineering. C, Materials for Biological Applications, 2017, 74: 471-477

    [37]Hu Jiyong*, Jiang Hongyan, Tu Huating, Bai Huan, Hong Hong, Zhang Yaya, Yang Xudong. Influence of woven fabric specification and yarn constitutions on the dielectric properties at ultrahigh frequency, Material Research Express, 2017, 4(11): 116308

    [38]Hu Jiyong*, Zhu Yingda, Zhang Hele, Gu Yuanyuan, Yang Xudong. Mixed effect of main electrospinning parameters on the β-phase crystallinity of electrospun PVDF nanofibers, Smart Materials and Structures, 2017, 26(8): 085019

    [39]史俊辉,周淑雯,张和乐,朱飞,李国豪,胡吉永*等,应变速度对聚吡咯导电机织物传感响应的影响, 上海纺织科技, 2017, 46(6): 8-12

    [40]Yang Xudong*, Jiang Xiuting, Hu Jiyong*, Wang Fangjun, Hu Chun. Relationship between physical and mechanical properties of accelerated weathering and outdoor weathering of PVC-coated membrane material under tensile stress, Journal of Industrial Textiles, 2017, 47(2): 197-210

    [41]Hu Jiyong*, Zhou Shuwen, Shi Junhui, Zhang Hele, Zhu Fei, Yang Xudong. Determinants of electrical resistance change of in-situ PPy-polymerized stretch plain woven fabric under uniaxial tensile strain, The Journal of The Textile Institute, 2017, 108(9): 1545-1551

    [42]Zhu Fei, Hu Jiyong*, Zhang Hele, Shi Junhui, Yang Xudong. Breathing measurement on the basis of contact resistance of cross-overlapping conductive yarns, Fibers and Polymers, 2017, 18(2): 369-375

    [43]Gu Yuanyuan, Zhu Yingda, Hu Jiyong*, Xiong Qiaoye. Effect of packaging material on piezoelectric response of sensor with electrospinning PVDF nanofiber web, Journal of Donghua University (Eng Eds),2017, 34(1): 95-98 

    [44]Hu Jiyong*, Li Guohao, Shi Junhui, Yang Xudong, Ding Xin. Improving the electromagnetic shielding of Nickel/Polyaniline coated PTT knitted fabric by optimizing the electroless plating conditions, Textile Research Journal, 2017, 87(8): 902–912


    专利专著

    著作

    [1] 胡吉永,张天芸,杨旭东,郎晨宏. 纺织敏感材料与传感器. 中国纺织出版社,2019 

    [2] 俞建勇,胡吉永,李毓陵,高性能纤维制品成形技术,国防工业出版社,2017

    [3] 胡吉永,纺织结构成型学2:多维成形,东华大学出版社,2016

    专利

    [1]胡吉永;梁贞;黄静;方俊英;杨旭东,一种一体化自驱动全纺织手势识别数据手套, 2020.5.25, 授权(公告)号 : CN111665937B

    [2]胡吉永;张勇;晏雄;杨旭东。一种法向模螺旋偶极子电子标签纱的制作方法, 授权号:CN111394854A, 2020.7.10

    [3]胡吉永,李国豪,洪虹,江红艳,杨旭东,晏雄,丁辛,杨杰。基于丝网印制的水洗唛UHF频段的RFID标签,发明专利,授权号:201510717776.X,2020年8月11日

    [4]马颜雪 ;李毓陵 ;王世娜 ;雷敏 ;胡吉永 ;一种异步多辊卷取机构及其工作方法, 201810229013.4, 2019.11.8

    [5]胡吉永,张华帅,李毓陵,杨旭东等,纺织结构散热器热阻测试装置及方法,发明专利,2018年11月13日,专利号:201510795095.5

    [6]王琼,陈频,胡吉永,周荣星,陈少伟,姜娟,甘以明,姚晓静. 羽绒服装保暖性的测试方法及装备。专利号:201510531272.9,公布日:2018.05.18

    [7]胡吉永,张晓峰,周淑雯,史俊辉,杨旭东,丁辛. 一种基于织物传感器的上肢功能运动监测系统及方法,发明专利,2017年12月,ZL201510740511.1

    [8]胡吉永,王姜,孙宝忠,李汉忠,杨德明,杨旭东. 一种全自动有梭剑杆织机的1×4梭箱装置,发明专利,2017年10月,ZL201610290207.6

    [9]郎晨宏,胡吉永,王旋,丁辛,杨旭东. 静电纺PVDF压电纤维薄膜的压电性能测试装置及方法,发明专利,2017年2月,ZL201410440089.3

    [10]李毓陵,卢兰兰,丁辛 ,胡吉永,杨旭东. 一种针肋散热器的制作装置及方法,发明专利,2017年2月,ZL 201410562718.x

    [11]胡吉永,朱胤达,顾苑园,王旋,杨旭东,丁辛. 一种足底压力测试装置及带有该装置的全织物鞋垫,发明专利,2016年8月,ZL 201410513878.5

    [12]雷开强,胡吉永,杨旭东, 一种吸波型高弹性电磁屏蔽织物的制备方法,发明专利,2016年5月,ZL 2014102457420

    [13]章媛,姜瑞涛,胡吉永,杨旭东,丁辛. 一种材料表面质地的模拟触觉评价方法,发明专利,2015年7月,ZL201410028070.8

    [14]丁辛,周云,张经纬,段亚茹,胡吉永,杨旭东. 一种用于测试心电信号的纺织电极的制备方法.发明专利, 2015年7月,ZL 201310461096.7

    [15]胡吉永,赵群,胡煜洁,姜瑞涛,丁辛,李毓凌. 一种纹理触觉评价过程的模拟测量方法,发明专利,2015年4月,ZL201210460721.1

    [16]岳彬彬,丁辛,胡吉永. 超级电容器用吡咯/3-(4-叔丁基苯)噻吩共聚物的制备方法,发明专利,2015年2月,ZL 201210246303.2,

    [17]岳彬彬,丁辛,胡吉永. 一种超级电容器用柔性电极材料的制备方法,发明专利,2015年2月,ZL 201210246481.5

    [18]胡吉永,张逸枫,朱玉,鲍可涵,杨旭东. 一种毛囊仿生织物传感器,实用新型发明专利,2014年12月,ZL 2014 2 0320188.3

    [19]杨旭东,党黎娅,郭蕴仪,李汉忠,丁辛,胡吉永.一种通用型可连续回转的窄带织物电缆及织造方法,发明专利,2014年11月,ZL 201310291708.2

    [20]岳彬彬,丁辛,胡吉永. 制备柔性超级电容器电极用导电聚吡咯复合织物的方法,发明专利,2014年8月,ZL201210429607.2


  • 获奖荣誉

    获奖荣誉

    [1]2021年11月,适应生物医用纺织专业的《纺织结构成型学》精准教学改革及实践,“纺织之光”2021年度中国纺织工业联合会纺织高等教育教学成果奖,一等奖(1/6)

    [2]2019年8月,全棉芯弹纱弹力面料关键技术 研发与产业化,2019年度中国纺织工业联合会科学技术进步奖,二等奖(4/10)

    [3]2017年9月,高素质应用研究型功能材料创新人才培养体系的构建与实践,2017年“纺织之光”中国纺织工业联合会纺织高等教育教学成果奖,二等奖(7/10)

    [4]2016年11月,大褶裥大提花机织面料喷气整体织造关键技术研究及产业化应用,中国纺织工业联合会科学技术奖 一等奖  (7/15)

    [5]2015年8月,生物医用纺织材料交叉学科创新人才培养模式,2015年“纺织之光”中国纺织工业联合会纺织高等教育教学成果奖 二等奖(5/10)。

    [6]2019年9月,论文“Effect of Preparation and Packaging Conditions on Performance of Fabric-based Screen-printing UHF RFID Tags”获得TBIS2019优秀论文奖

    [7]2018年8月,论文“Influence of boxing conditions on reading performance of fabric-based UHF RFID tags on garments”获得TBIS2018优秀论文奖

    [8]2015年8月,论文“生物医用纺织材料及其器件研究进展”获第16届陈维稷获奖论文(6/6)

    [9]2019年6月,东华大学优秀硕士学位论文指导老师,硕士生,周淑雯

    [10]2018年12月,东华大学优秀硕士学位论文指导老师,硕士生,朱胤达

    [11]2017年6月,东华大学优秀硕士学位论文指导老师,硕士生 张晓峰

    [12]2015年11月,十四届挑战杯中航工业全国大学生课外学术作品三等奖,指导老师


  • 其他信息

    社会任职

    2016.1至今上海市复合材料学会纺织复合材料专业委员会委员

    2011.1至今上海市纺织工程学会会员

    2020.4  至今     Frontiers in Computer Science - Mobile and Ubiquitous Computing,Reviewer editor

    2020.7  至今     BMC Biomedical Engineering,Associated editor

    2021.8  至今     World Journal of Textile Engineering and Technology,编委

    东华大学学报(自然科学版)(中英文)、Textile Research Journal、Material Research Express、ACS Applied Materials & Interfaces等国内外期刊审稿人


    国际交流

    2007年6月~2008年12月 在法国国立高等纺织工程学院进行短期学术交流

    2008年12月~2010年7月 在香港理工大学纤维生物工程实验室进行中港项目合作研究,


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