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博士生导师
  • 胡祖明
  • 1962-10-30
  • 学位:博士
  • 职称:研究员
  • 所属部门:化学纤维研究所
  • 导师身份:博士生导师
  • 课题组: 胡祖明课题组

  • 职位:
  • 化纤研究所所长、材料学院教授委员会成员

  • 研究方向:
  • 高分子材料成形工艺及理论、复合材料

  • 荣誉获奖:
  • 1. 聚间苯二甲酰间苯二胺纤维与耐高温绝缘纸制备关键技术及产业化,2010年国家科技进步二等奖;
    2. 凝胶纺高强高模聚乙烯纤维及其连续无纬布的制备技术、产业化及应用开发,2009年国家科学技术进步二等奖;
    3. 高强高模纤维专用超高分子量聚乙烯树脂、先进纺丝关键技术及应用,2016年度上海市技术发明一等奖;
    4. 有色间位芳纶短纤维工业化,2015年度中国纺织工业联合会科技进步二等奖;
    5. 原液着色聚间苯二甲酰间苯二胺纤维工业化,2013年上海市科技进步二等奖;
    6. 年产1000吨芳纶1313绝缘复合材料生产线,2010年江苏省科技进步二等奖;
    7. 聚间苯二甲酰间苯二胺纤维与耐高温绝缘纸制备关键技术及产业化,2009年中国纺织工业协会科学技术一等奖;
    8. 芳纶1313纤维及绝缘纸工业化,2009年教育部科技进步二等奖;
    9. 间位芳纶及绝缘材料产业化关键技术,2008年上海市科技进步一等奖;
    10. 高强高模聚乙烯纤维,2006年中国国际工业博览会银奖;
    11. 高强高模聚乙烯纤维产业化,2005年上海市科技进步一等奖;
    12. 超高分子量聚乙烯冻胶纺丝新技术及产业化项目,2005年中国纺织工业协会科技进步二等奖;
    13. 纳米粒子改性化学纤维的制备方法,2006年上海市发明专利二等奖;
    14. 纺制多孔三维立体卷曲纤维用喷丝板,2001年上海市实用新型专利一等奖;
    15. 熔纺多中孔三维卷曲纤维成形原理和生产技术,1999年桑麻纺织科技二等奖;
    16. 三维卷曲涤纶短纤维工业化,1998年上海市科技进步一等奖;
    17. 2016年度上海市五一劳动奖章;
    18. 2014年度政府特殊津贴;
    19. 2013年“中国纺织学术带头人”称号;
    20. 2012年上海市领军人才;
    21. 2011年度上海市松江区优秀职工;
    22. 2010中国纺织行业年度创新人物;
    23. 上海市委世博先锋行动“五带头”共产党员

  • 个人简历:
  • 胡祖明,东华大学三级教授,东华大学化学纤维研究所所长,博士研究生导师,《合成纤维工业》杂志和《高技术纤维》杂志编委,中国科学院上海文献信息中心顾问,纤维材料改性国家重点实验室、高性能纤维以及纺织面料两个教育部重点实验室主要研究人员。先后主持承担和参与完成包括国家863、国家教育部和各种省部级、国内外企业委托项目30余项,申请和取得专利近30项,在国内外学术杂志和学术会议上发表论文100余篇,多年来培养博士、硕士研究生20余名,先后获得国家科技进步二等奖1项,上海市科技进步一等奖3项,纺织工业协会科技一等奖和二等奖各1项,教育部科技进步二等奖1项,上海市发明专利二等奖和上海市实用新型专利一等奖各1项,桑麻纺织科技二等奖1项。曾赴德国、美国、荷兰等国作访问学者或进行学术交流。

  • 学习及工作经历:
  • 1995.11~1996.11,德国柏林工业大学,访问学者
    2001.7~至今,东华大学材料学院、纤维材料改性国家重点实验室工作,东华大学化学纤维研究所所长,研究员,博士生导师

  • 主讲课程:
  • “材料设计与工程实践”、"高技术纤维"、 "专业英语"本科生课程

  • 已取得的主要研究成果:
  • 主要从事高性能纤维研究工作,先后主持和参与完成包括国家973、863、自然科学基金等国家及省部级和国内外企业委托项目30余项,研究成果获发明专利40余项,并有多项专利实现了产业化转移,在国内外学术杂志和学术会议上发表论文200余篇;先后获得国家科技进步二等奖2项、省部级科技进步奖共7项。个人获评2010年度纺织行业年度创新人物、2011年度上海市领军人才、2011年度上海市松江区优秀职工和2013年度纺织工程学会纺织学术带头人等荣誉。

  • 主要论文:
  • 1. A Novel Approach to Design Nanoporous Polyethylene/Polyester Composite Fabric via TIPS for Human Body Cooling. Macromolecular Materials & Engineering, 2018.
    2. Super toughened poly(trimethylene terephthalate) composite using flowable crosslink elastomer blend. Polymer Engineering & Science, 2018.
    3. Surface engineering of nanosilica for vitrimer composites. Composites Science and Technology, 2018, 154: 18-27.
    4. Synthesis of a deoxybenzoin derivative and its use as a flame retardant in poly (trimethylene terephthalate). Journal of Applied Polymer Science, 2018, 135(8), 45904.
    5. Preparation of solution blown polyamic acid nanofibers and their imidization into polyimide nanofiber mats. Nanomaterials, 2017, 7(11): 395.
    6. A facile template approach to nitrogen-doped hierarchical porous carbon nanospheres from polydopamine for high-performance supercapacitors. Journal of Materials Chemistry A, 2017, 5(34): 18242-18252.
    7. Preparation and Characterization of Modified Poly‐m‐phenylene Terephthalamide and Its Fiber. Polymer International, 2017.
    8. Nonhalogen flame retarded poly (butylene terephthalate) composite using aluminum phosphinate and phosphorus‐containing deoxybenzoin polymer. Journal of Applied Polymer Science, 2017, 134(47).
    9. Mechanically strong and pH-responsive carboxymethyl chitosan/graphene oxide/polyacrylamide nanocomposite hydrogels with fast recoverability. Journal of Biomaterials Science, Polymer Edition, 2017, 28(16): 1899-1917.
    10. Bio‐based epoxy vitrimers: Reprocessibility, controllable shape memory, and degradability. Journal of Polymer Science Part A: Polymer Chemistry, 2017, 55(10): 1790-1799.
    11. The mechanical and fatigue properties of flowable crosslink thermoplastic polymer blends based on self‐catalysis of transesterification. Journal of Applied Polymer Science, 2017, 134(24).
    12. Development of novel cardo‐containing phenylethynyl‐terminated polyimide with high thermal properties. Polymers for Advanced Technologies, 2017, 28(2): 222-232.
    13. Development and evaluation of UHMWPE/woven fabric composite microfiltration membranes via thermally induced phase separation. RSC Advances, 2016, 6(93): 90701-90710.
    14. Semi-bio-based aromatic polyamides from 2, 5-furandicarboxylic acid: toward high-performance polymers from renewable resources. RSC Advances, 2016, 6(90): 87013-87020.
    15. Preparation, structure and properties of boron modified high-ortho phenolic fibers. Fibers and Polymers, 2016, 17(5): 678-686.
    16. Hyperbranched polybenzoxazoles incorporated polybenzoxazoles for high‐performance and low‐K materials. Journal of Polymer Science Part A: Polymer Chemistry, 2016, 54(11): 1623-1632.
    17. Poly (ε-caprolactone)-grafted polydopamine particles for biocomposites with near-infrared light triggered self-healing ability. Polymer, 2016, 84: 328-335.
    18. Synthesis and characterization of phenylethynyl-terminated polyimide oligomers derived from 2, 3, 3′, 4′-diphenyl ether tetracarboxylic acid dianhydride and 3, 4′-oxydianiline. Chinese Journal of Polymer Science, 2016, 34(1): 122-134.
    19. Effect of hard segment length on the properties of poly (ether ester) elastomer prepared by one pot copolymerization of poly (ethylene glycol) and cyclic butylene terephthalate. Journal of Polymer Research, 2015, 22(10): 193.
    20. Preparation of KH570-SiO2 and their modification on the MF/PVA composite membrane. Fibers and Polymers, 2015, 16(8): 1772-1780.
    21. Novel acetylene‐terminated polyimide oligomers with excellent processability and high toughness of films. Journal of Applied Polymer Science, 2015, 132(37).
    22. Mussel-Adhesive-Inspired fabrication of multifunctional silver nanoparticle assemblies. Langmuir, 2015, 31(19): 5504-5512.
    23. Synthesis of hyperbranched polybenzoxazoles and their molecular composites with epoxy resins. Journal of Applied Polymer Science, 2015, 132(18).
    24. Polybenzimidazole assisted fabrication of multiwalled carbon nanotube buckypapers and their silver nanoparticle hybrids. RSC Advances, 2014, 4(68): 35904-35913.
    25. Synthesis and characterization of ternary copolyimides derived from aromatic dianhydride and aromatic diisocyanates. High Performance Polymers, 2014, 26(5): 598-608.
    26. Tuning the interface of graphene platelets/epoxy composites by the covalent grafting of polybenzimidazole. Polymer, 2014, 55(19): 4990-5000.
    27. Fabrication and properties of dope-dyed Poly (m-phenylene isophthalamide) fibers via wet spinning. Fibers and Polymers, 2014, 15(7): 1387-1392.
    28. Tuning bio-inspired skin–core structure of nascent fiber via interplay of polymer phase transitions. Physical Chemistry Chemical Physics, 2014, 16(29): 15152-15157.
    29. Polydopamine particles for next-generation multifunctional biocomposites. Journal of Materials Chemistry A, 2014, 2(20): 7578-7587.
    30. Fabrication of the Colored PMIA Fibers by Wet Spinning: Effect of Spinning Parameters on the Coagulation Process. Journal of Engineered Fabrics & Fibers (JEFF), 2014, 9(1).
    31. The pyrolysis behaviors of ternary copolyimide derived from aromatic dianhydride and aromatic diisocyanates. Journal of Applied Polymer Science, 2014, 131(8).
    32. Nacre-like graphene paper reinforced by polybenzimidazole. RSC Advances, 2013, 3(43): 20353-20362.
    33. Strong and conductive polybenzimidazole composites with high graphene contents. RSC Advances, 2013, 3(30): 12255-12266.
    34. Thermosensitive Nanocapsules for Effective Immobilization and Recycling of Horseradish Peroxidase. Acta Polymerica Sinica, 2013 (4): 542-548.
    35. Construction of robust enzyme nanocapsules for effective organophosphate decontamination, detoxification, and protection. Advanced Materials, 2013, 25(15): 2212-2218.
    36. Thermal Decomposition Behavior of a Heterocyclic Aramid Fiber. Journal of Macromolecular Science, Part B, 2013, 52(5): 726-737.
    37. Calculation of the phase diagram of a btda-tdi/mdi co-polyimide/N-methyl-2-pyrrolidinone/water system in the phase separation process. Textile Research Journal, 2013, 83(6): 553-565.
    38. Structure and Properties of Dope-Dyed Poly (m-phenylene isophthalamide) Fibers By Wet Spinning. Asian Journal of Chemistry, 2013, 25(7): 3952-3956.
    39. Fabrication of Thermosensitive Protein Nanocapsules Via Precipitation Polymerization. Acta Polymerica Sinica, 2013 (3): 383-390.
    40. Helical Organic Nanotubes from Simple Chiral Building Blocks. Journal of nanoscience and nanotechnology, 2013, 13(10): 6961-6966.
    41. Competition of crystal nucleation to fabricate the oriented semi-crystalline polymers. Polymer, 2013, 54(13): 3402-3407.
    42. Tuning hierarchically aligned structures for high-strength PMIA–MWCNT hybrid nanofibers. Nanoscale, 2013, 5(3): 886-889.
    43. Tailoring the characteristics of graphite oxide nanosheets for the production of high-performance poly (vinyl alcohol) composites. Carbon, 2012, 50(15): 5525-5536.
    44. Surface treatment of para-aramid fiber by argon dielectric barrier discharge plasma at atmospheric pressure. Applied Surface Science, 2012, 258(24): 10168-10174.
    45. Study of Diffusion Performance and Preparation Technology of the Coloured PMIA Fibre. Polymers & Polymer Composites, 2012, 20(7): 601-608.
    46. Effect of UHMWPE concentration on the extracting, drawing, and crystallizing properties of gel fibers. Journal of materials science, 2011, 46(17): 5690-5697.
    47. Porous silicone hydrogel interpenetrating polymer networks prepared using a template method for biomedical use. Polymer International, 2011, 60(7): 1136-1141.
    48. Structure and properties of polyimide (BTDA-TDI/MDI co-polyimide) fibers obtained by wet-spinning. Macromolecular research, 2011, 19(7): 645-653.
    49. Poly (dimethyl siloxane)/poly (2-hydroxyethyl methacrylate) interpenetrating polymer network beads as potential capsules for biomedical use. Current Applied Physics, 2011, 11(3): 945-950.
    50. Study on Morphology and Characterization of Poly (mphenylene isophtalamide)/Multi-Walled Carbon Nanotubes Composite Nanofibers by Electrospinning. Journal of nanoscience and nanotechnology, 2011, 11(5): 4004-4010.
    51. Dynamic rheological properties and microstructures of liquid-crystalline poly (p-phenyleneterephthalamide) solutions in the presence of single-walled carbon nanotubes. Journal of polymer research, 2011, 18(2): 263-271.
    52. Effects of three parameters on the diameter of electrospun poly (ethylene oxide) nanofibers. Journal of nanoscience and nanotechnology, 2011, 11(2): 1052-1059.
    53. Composites of poly (dimethylsiloxane) and spherically shaped poly (2‐hydroxyethylmethacrylate) particles for biomedical use. Polymers for Advanced Technologies, 2010, 21(11): 802-806.
    54. Preparation and properties of morphology controlled poly (2-hydroxyethyl methacrylate)/poly (N-vinyl pyrrolidone) double networks for biomedical use. Current Applied Physics, 2010, 10(3): 766-770.
    55. Dynamic Rheological Studies of Poly (p-phenyleneterephthalamide) and Carbon Nanotube Blends in Sulfuric Acid. International journal of molecular sciences, 2010, 11(4): 1352-1364.
    56. Preparation, morphology, and adhesive and mechanical properties of ultrahigh‐molecular‐weight polyethylene/SiO2 nanocomposite fibers. Polymer Composites, 2010, 31(4): 684-690.

  • 著作:
  • 先进高分子材料(材料新技术丛书) 第二章 超高分子量聚乙烯纤维 中国纺织出版社 2006.2

  • 授权的专利:
  • 1. 一种高表面粘结性对位芳纶的制备方法,201410100889.0,授权日:2017.10.17
    2. 一种高粘度浆液的脱泡装置及其使用方法,ZL201410336441.9,授权日:2017.6.30
    3. 一种高流动性和宽加工窗口的聚酰亚胺预聚体及其制备方法,ZL201410853090.9,授权日:2017.2.1
    4. 一种超高分子量聚乙烯复合微孔膜的制备方法,ZL201410649146.9,授权日:2017.1.11
    5. 一种硅烷交联改性超高分子量聚乙烯纤维的制备方法,ZL201410142484.3,授权日:2017.1.4
    6. 一种PPTA树脂直接制备芳纶纺丝浆液的方法,ZL201410728119.0,授权日:2016.8.17
    7. 一种有色超高相对分子质量聚乙烯纤维的制备方法,ZL 201310542179.9,授权日:2016.06.08
    8. 一种有色间位芳纶的制备方法,ZL 201510148654.3,授权日:2016.10.19
    9.一种三元共聚聚酰亚胺纤维的制备方法,ZL 201310539709.4,授权日:2016.08.17
    10.一种PPTA树脂直接制备芳纶纺丝浆液的方法,ZL 201410728119.0,授权日:2016.08.17
    11.一种超高分子量聚乙烯单丝的制备方法,ZL 201010207623.8,授权日:2013.05.08
    12.一种粗旦超高分子量聚乙烯纤维纱的制备方法,ZL 201110100316.4,授权日:2013.01.02
    13.多孔硅水凝胶互穿网络(IPN)膜的制备方法,ZL 201010273254.2,授权日:2012.05.23
    14.一种间位芳香族聚酰胺纤维的制备方法,ZL 201010154552.X,授权日:2012.07.04
    15.硅水凝胶互穿网络(IPN)球的制备方法,ZL 201010022458.9,授权日:2012.06.13
    16.一种纤维素液晶溶液的制备方法,ZL 200910045636.7,授权日:2011.07.20
    17.半连续制备聚对苯撑苯并二噁唑长丝的方法,ZL 200810041035.4,授权日:2011.11.09
    18.一种低含盐的芳纶1313湿法纺制纤维法,ZL 200810034768.5,授权日:2011.11.09
    19.高表面粘接性超高相对分子质量聚乙烯纤维的制备方法,ZL 200710044862.4,授权日:2011.01.12
    20.一种可吸收抗菌止血敷料的制备方法,ZL 200710040131.2,授权日:2010.05.19
    21.一种中空高强高模聚乙烯纤维的制备方法,ZL 200610029031.5,授权日:2008.12.10
    22.一种聚酰亚胺纤维的制备方法,ZL 200610024791.7授权日:2008.04.23
    23.一种制备间位芳香族聚酰胺纤维的方法,ZL 200510026893.8,授权日:2008.07.02
    24.一种制备聚对苯撑苯并二噁唑纤维的新方法,ZL 200510026580.2,授权日:2006.11.22
    25.一种提高超高相对分子量聚乙烯纤维表面粘结性能的方法,ZL 200510025710.0授权日:2008.06.18
    26.一种连续化制备聚对苯二甲酰对苯二胺树脂的方法,ZL 200510025709.8授权日:2006.11.29
    27.纳米尺寸金属短纤维及其制造方法,ZL 03151149.X授权日:2005.11.02
    28.纳米粒子改性化学纤维的制备方法,ZL 03141823.6授权日:2005.02.23
    29.同时提高高强聚乙烯纤维耐热、抗蠕变和粘接性的方法,ZL 03115300.3授权日:2005.07.13
    30.超高相对分子量聚乙烯冻胶纤维的萃取、干燥工艺,ZL 02160744.3授权日:2006.03.22
    31.纳米粒子增强增韧超高相对分子质量聚乙烯纤维的制备方法,ZL 02148597.6,授权日:2005.12.07
    32.对苯二甲酰对笨二胺浆粕状纤维的制备方法,ZL 02138112.7,授权日:2005.02.02


  • 近几年承担的科研项目:
  • 主要负责项目:
    纵向科研项目:
    1. 基于Diels-Alder反应的可逆交联芳香族聚酰胺及其碳纳米复合材料的制备、表征及性质的研究 国家自然科学基金;
    2. 复杂外场中刚性链凝聚态结构和微缺陷形成机制、演变规律与调控 科技部“973”项目;
    3. 新型芳杂环纤维制备关键技术研究 科技部“863”项目;
    4. 世博会专用纺织材料研制 上海市科委科技攻关项目;
    5. 上海市领军人才项目;
    6. 原液着色聚间苯二甲酰间苯二胺纤维工业化 上海市教育委员会;
    7. 纳米级微纤金属纳米微纤的制备及应用 教育部;
    8. 高性能PBO纤维的纺丝工艺研究 国家863项目;
    9. 三异混纤涤纶仿真纤维的研制 中国石化总公司;
    10. 高强高模聚乙烯纤维产业化 上海市教委;
    11.中空高强高模聚乙烯纤维的研制 上海市科委;
    12. 复合材料用高强高模聚乙烯纤维的研究 上海市教委;
    13. 功能性热熔无纺布的技术开发 中国石化总公司;
    14. 高表面粘结性高强高模聚乙烯纤维的研究开发 上海市教育发展基金会;
    15. 间位芳香族聚酰胺长丝的研究开发 上海市教育发展基金会。
    横向科研项目:
    1. 间位芳纶及绝缘材料产业化关键技术;
    2. 芳纶1414纺丝技术;
    3. 高性能PBO纤维开发研究;
    4. 年产2000吨绝缘纸用芳纶1313聚合、抽丝技术开发及生产线的建立;
    5. 高强度化纤索研制;
    6. 高强高模聚乙烯纤维生产线改造;
    7. 超高PE的纺丝成型及检测;
    8. 芳纶1414纤维的研制;
    9. 应用于密封磨擦材料的PAN浆粕;
    10. 芳砜纶螺杆聚合试验;
    11. 导湿涤纶短纤维喷丝板的研制;
    12. 3000吨/年规模聚酯瓶片料中空三维涤纶短丝生产;
    13. 有导湿性能的异型涤纶长丝产品开发;
    14. PBO纺丝的研究;
    15. 芳纶1313聚合、纺丝工艺及设备研究


  • 国际交流与合作:
  • 1、在德国柏林工业大学工做访问学者
    2、与荷兰DSM公司合作进行UHMWPE纤维研究课题,并应邀请赴荷兰进行学术交流


  • 电话:67792944
  • Email:hzm@dhu.edu.cn
  • 移动电话:13701765194
版权所有: 东华大学材料科学与工程学院
地址:上海市松江区人民北路2999号  电话:0086-21-67792362 67792866  传真:0086-21-67792855