研究成果  

科研项目

1. 国家自然科学基金委员会,面上项目,51773034,基于纱条中纤维排列的牵伸过程研究,2018.01~2021.12,61万元,在研,主持

2. 现代农业技术体系建设项目,CARS-16,麻类体系纤维性能改良,2016.01~2020.12,350万元,已结题,主持

3. 万人计划(领军人才),纺织工程,2015年

4. 国家自然科学基金面上项目,51173023,基于纤维几何特征与成纱性能关系的虚拟纺纱优化,2012.01~2015.12,60万元,已结题,主持

5. 现代农业技术体系建设项目,CARS-19-E25,麻类体系纤维性能改良,2011.01~2015.12,350万元,已结题,主持

6. 国家自然科学基金面上项目,51076026,基于高速旋转气流的纤维/气流耦合动力学模型,2011.01~2013.12,35万元,已结题,主持

7. 上海市曙光学者(跟踪)人才项目,10GG17,基于纤维几何特征的纱线性能统计学模型及分析,2011.01~2012.12,25万元,已结题,主持

8. 上海市领军人才,2009年

9. 上海市科委基础研究重点项目,08JC1400300,柔性纤维在旋转气流场中运动规律的研究,2008.09~2010.11,35万元,已结题,主持


代表论文

[1] Shen Yuanying, Yu Chongwen, Yang. A study on fiber motion in the drafting zone and hook removal [J]. Textile Research Journal, 2020, 90(11-12): 1277-1290.

[2] Huang Jing, Yu Chongwen. Determination of cellulose, hemicellulose and lignin content using near-infrared spectroscopy in flax fiber [J]. Textile Research Journal, 2019, 89 (23-24): 4875-4883.

[3] Jiang Zhan, Yu Chongwen, Yang Jianping, et al. Estimation of yarn strength based on critical slipping length and fiber length distribution [J]. Textile Research Journal, 2019, 89 (2): 182-194.

[4] Shang Shanshan, Yang Jianping, Yu Chongwen. Numerical simulation of the airflow field in vortex spinning processing [J]. Textile Research Journal, 2019, 89 (6): 1113-1127.

[5] Meng Chaoran, Hu Jinguang, Yu Chongwen, et al. Evaluation of the mild Mg(OH)(2)-AQ aided alkaline oxidation degumming process of ramie fiber at an industrial scale [J]. Industrial Crops and Products, 2019, 137 694-701.

[6] Mupfudze Kudakwashe D., Cao Qiaoli, Shen Yuanying, Na Sun, Yu Chongwen. Fiber motion and the accelerated point distribution in roller drafting [J]. Textile Research Journal, 2019, 89 (7): 1224-1236.

[7] Sun Na, Yu Chongwen, Yang Jianping. Modeling fiber arrangement and distribution during the roller drafting process [J]. Textile Research Journal, 2019, 89 (19-20): 4295-4305.

[8] Meng Chaoran, Yang Jianping, Zhang Bin, Yu Chongwen. Rapid and energy-saving preparation of ramie fiber in TEMPO-mediated selective oxidation system [J]. Industrial Crops and Products, 2018, 126 143-150.

[9] Shang Shanshan, Yu Chongwen, Li Meiling. Numerical simulation of swirling airflow dynamics in vortex spinning [J]. Textile Research Journal, 2018, 88 (7): 833-843.

[10] Sun Na, Jiang Zhan, Yu Chongwen. Modeling roller drafting based on fiber arrangement in the sliver [J]. Journal of the Textile Institute, 2018, 109 (11): 1477-1481.

[11] Meng Chaoran, Li Zhaoling, Wang Chaoyun, Yu Chongwen. Sustained-release alkali source used in the oxidation degumming of ramie [J]. Textile Research Journal, 2017, 87 (10): 1155-1164.

[12] Guan Saipeng, Zhong Hai, Yang Jianping, Yu Chongwen. Study on the processing of stretch-broken ramie yarns in a cotton spinning system [J]. Textile Research Journal, 2017, 87 (16): 2018-2027.

[13] Zhou Jiajia, Li Zhaoling, Yu Chongwen. Property of ramie fiber degummed with Fenton reagent [J]. Fibers and Polymers, 2017, 18 (10): 1891-1897.

[14] Jiang Zhan, Kuang Xueqin, Yang Jianping, Yu Chongwen. Simulation on fiber random arrangement in the yarn part II: joint effect of fiber length and fineness distribution [J]. Journal of the Textile Institute, 2017, 108 (3): 347-352.

[15] Li Zhaoling, Meng Chaoran, Zhou Jiajia, Li Zhengfan, Ding Jinhua, Liu Fengming, Yu Chongwen. Characterization and control of oxidized cellulose in ramie fibers during oxidative degumming [J]. Textile Research Journal, 2017, 87 (15): 1828-1840.

[16] Meng Chaoran, Liu Fengming, Li Zhaoling, Yu Chongwen. The cellulose protection agent used in the oxidation degumming of ramie [J]. Textile Research Journal, 2016, 86 (10): 1109-1118.

[17] Shang Shanshan, Hu Biyu, Yu Chongwen, Pei, Zeguang. Effect of wrapped Fibre on tenacity of viscose vortex yarn [J]. Indian Journal of Fibre & Textile Research, 2016, 41 (3): 278-283.


专著

[1] 郁崇文主编.纺纱工艺学[M].上海:东华大学出版社,2015

[2] 郁崇文主编.“十二五”普通高等教育本科国家级规划教材  教育部普通高等教育精品教材  纺纱学  第2版[M].北京:中国纺织出版社,2015

[3] 郁崇文主编.纺纱工艺设计与质量控制[M].北京:中国纺织出版社,2011

[4] 张文赓,郁崇文编.梳理的基本理论[M].上海:东华大学出版社,2012

[5] 郁崇文,汪军,王新厚.纺织试验设计及最优化[M].东华大学出版社,2019

[6] 郁崇文等编著.工程参数的最优化设计[M].上海:东华大学出版社,2003

[7] 郁崇文主编.纺纱工艺设计与质量控制[M].北京:中国纺织出版社,2005

[8] 郁崇文主编.纺纱实验教程[M].上海:东华大学出版社,2009

[9] 郁崇文等编著.苎麻纱线生产工艺与质量控制[M].上海:中国纺织大学出版社,1997

[10] 郁崇文主编.纺纱系统与设备[M].北京:中国纺织出版社,2005


专利

[1] 曹巧丽,钱希茜,郁崇文,杨建平,张斌. 基于纤维排列的精梳模拟的精梳工艺参数确定方法[P]. CN109948210B, 授权日:2020.11.10

[2] 钱希茜,曹巧丽,郁崇文,杨建平,张斌. 一种带有梳并联工序的精梳纺纱方法[P]. CN110172760B,授权日:2020.11.10.

[3] 郁崇文,杨建平,钱希茜,王依民,倪建华. 一种含阻燃聚酰胺纤维和聚芳酯纤维的混纺纱的生产方法[P]. CN109943933B, 授权日:2020.08.25.

[4] 钱希茜,曹巧丽,郁崇文. 一种兼顾纤维伸直度与纱条均匀度的梳并联生产方法[P]. CN110004531B, 授权日:2020.08.14.

[5] 曹巧丽,钱希茜,郁崇文,杨建平,张斌. 一种精梳方法[P].CN109913982 B, 授权日:2020.06.05.

[6] 王思意,杨建平,郁崇文,张斌. 一种利用铺网—抄造联合法制备环保型麻地膜的装置及其使用方法[P]. CN108035162B, 授权日:2020.05.29.

[7] 徐洁,杨建平,郁崇文,张斌. 一种利用羧甲基纤维素制备耐水环保型麻地膜的方法[P]. CN110878487A, 授权日:2020.03.13.

[8] 孟超然,郁崇文,杨建平,张斌,郭建生. 一种阳离子溶液辅助制备细菌纤维素/NBSK气凝胶球的方法[P]. CN105950681B, 授权日:2019.11.08.

[9] 申元颖,郁崇文,杨建平. 一种牵伸过程中纤维变速点位置的测试方法[P]. CN110359140A, 授权日:2019.10.22.

[10] 孟超然,郁崇文,黄晶,崔启璐,张斌. 一种使用2,2,6,6-四甲基哌啶-1-氧化物自由基氧化体系制备苎麻纤维的方法[P]. CN106894097B, 授权日:2019.09.27.

[11] 丁金花,孟宪智,郁崇文,张斌,杨飞. 具有阿拉伯糖和糖醛酸支链的柳枝蓟半纤维素的提取方法[P]. CN110172487A, 授权日:2019.08.27.

[12] 杨飞,孟超然,丁金花,郁崇文. 一种具有染色差别化的亚麻半漂纱制备方法[P]. CN107488903B, 授权日:2019.07.23.

[13] 孙娜,姜展,张弘强,郁崇文,杨建平. 一种基于纤维在纱条中排列的罗拉牵伸模拟方法[P]. CN106868660B, 授权日:2019.03.08.·