姓名:孔海娟 职称:副教授,研究生导师
指导研究方向:材料学,复合材料
通讯地址:上海市松江区龙腾路333号行政楼1619
电子邮箱:konghaijuan@sues.edu.cn
联系电话:021-67791203
教育经历:
2006.09
2010.07 青岛科技大学 高分子科学与工程——学士
2010.09
2015.11 东华大学 材料加工工程——博士(硕博连读)
工作经历:
2019.12
至今 上海工程技术大学 副教授
2016.01
2019.12 上海工程技术大学 讲师
研究方向:
芳纶高性能化、高性能纤维制备及其复合材料应用、复合材料表面界面、复合材料连接
研究情况:
作为主持人承担国家自然科学基金青年科学基金、JWKJW创新特区项目子课题等科研项目和企业委托项目等10余项,总经费200余万元。近年来在国内外刊物发表学术论文50余篇,申请发明专利30余项,已授权发明专利20余项,实用新型专利1项。相关的研究成果已成功用于芳纶产业化、微创伤介入医疗用中空纤维管的复合等领域,并作为主要完成人获得上海市科技进步一等奖3项,中国纺织工业联合科技进步一等奖2项。
学术/社会兼职:
中国复合材料学会会员
东营市航空航天复合材料重点实验室学委会副主任
论文信息:
发表论文50余篇,其中SCI论文第一作者/通讯作者20余篇。
Sun, X.; Yu, D.; Song, J.; Kong, H*.; Yu, M., Preparation of TiO2/PAN-based activated carbon nanofibers assisted by supercritical CO2 fluid. MATERIALS LETTERS 2023, 337.
Song, J.; Chen, C.; Du, X.; Sun, X.; Zhang, P.; Ma, Y.; Kong, H.*; Yu, M., Aramid fiber coated with aramid nanofiber coating to improve its interfacial properties with polycarbonate. POLYMER COMPOSITES 2023, 44 (4), 2557-2568.
Du, X.; Kong, H*.; Xu, Q.; Li, B.; Yu, M.; Li, Z., Effects of aramid nanofibers on the mechanical properties of epoxy resin and improved adhesion with aramid fiber. Polymer Composites 2022, 43 (4), 2103-2114.
Hu, Z.; Kong, H*; Yu, M., The preparation and performance of non-woven carbon tissue reinforced adhesive film for bonding CFRP-aluminum. Journal of Adhesion Science and Technology 2022, 36 (14), 1479-1498.
Li, B.; Kong, H*.; Qin, M.; Ding, H.; Du, X.; Song, J.; Sun, X.; Yu, M., Study on supercritical CO2-assisted modification of aramid pulp and properties of its reinforced EPDM composites. Polymer Engineering and Science 2022, 62 (9), 2878-2890.
Hu, Z.; Kong, H*.; Tao, L.; Qiao, M.; Yu, D.; Lu, F.; Dawelbeit, A.; Yu, M., Effect of Nonwoven Carbon Tissue-Reinforced Epoxy Resin Adhesive Layer on the Single Lap Bonding Strength of Aluminum Alloy Joints. ACS Omega 2021, 6 (37), 23802-23813.
Zeng J, Kong, H*,, Du X, et al. Surface modification of PBO fibers with 2,2-Bis (3-amino-4-hydroxyphenyl) hexafluoropropane in supercritical carbon dioxide for enhancing interfacial strength[J]. Materials Today Chemistry, 2021, 20.
Hao Y , Kong, H*, Jiao Y , et al. Polyzwitterions Functionalized Nafion Barrier Toward High Performance Lithium㏒ulfur Batteries[J]. ChemElectroChem, 2021, 8(12).
Jiang F, Yan D, Lin J, Lin, J.; Kong, H*.; Yao, Q Implantation of multiscale silk fibers on poly (lactic acid) fibrous membrane for biomedical applications[J]. Materials Today Chemistry, 2021, 21.
Zhang, L.,Kong, H*., Qiao, M., Ding, X., Yu, M., Supercritical CO2-induced nondestructive coordination between ZnO nanoparticles and aramid fiber with highly improved interfacial-adhesion properties and UV resistance. Applied Surface Science,2020,521.
Kong, H*.,Chai, J., Ding, H., Yu, M., Surface modification of aramid pulp via coating zinc oxide to improve its dispersion in epoxy assisted by supercritical carbon dioxide. Composites Communications,2020,18, 1-4.
Sun, H.,Kong, H*., Ding, H., Xu, Q., Zeng, J., Jiang, F., Yu, M., Zhang, Y., Improving UV resistance of aramid fibers by simultaneously synthesizing TiO2 on their surfaces and in the interfaces between fibrils/microfibrils using supercritical carbon dioxide. Polymers,2020,12 (1).
Xu, Q.,Kong, H*., Ding, H., Zeng, J., Jiang, F., Du, X., Li, B., Yu, M., Effects of different supercritical temperatures on the modification of aramid pulp surface via coating silica to enhance the properties of EPDM composites. Polymer Composites,2021, 42(3): 1473-1485.
Ding, H., Kong, H*., Sun, H., Xu, Q., Zeng, J., Yu, M., Improving aramid pulp dispersion in epoxy resin via the in situ preparation of SiO2 on an aramid pulp surface. Polymer Composites,2020,41 (4), 1683-1693.
Zhang, L., Kong, H*.,Qiao, M.,Ding, X.,Yu, M., Growing nano-SiO2 on the surface of aramid fibers assisted by supercritical CO2 to enhance the thermal stability, interfacial shear strength, and UV resistance. Polymers, 2019,11 (9).
Kong, H*., Xu, Q., Yu, M., Microstructural changes of aramid fiber due to reaction with toluene 2,4-diisocyanate under tension in scCO2. Polymers, 2019,11 (7).
Kong, H*., Ding, H., Yu, M., Ding, X., Qiao, M., Influence of poly(p-phenyleneterephalamide) pulp by surface modification with dopamine to nitrile butadiene rubber. Polymer Composites,2019,40, E476-E483.
Kong, H*., Sun H., Chai, J., Yu, M.,. Improvement of adhesion of kevlar fabrics to epoxy by surface modification with acetic anhydride in supercritical carbon dioxide[J]. Polymer Composites, 2019, 40(S1): 920-927.
Qiao, M.,Kong, H*.,Ding, X., Zhang, L., Yu, M., Effect of graphene oxide coatings on the structure of polyacrylonitrile fibers during pre-oxidation process. RSC Advances,2019,9 (48), 28146-28152.
Qiao, M.,Kong, H*.,Ding, X.,Hu, Z.,Zhang, L.,Cao, Y.,Yu, M., Effect of different pressures of supercritical carbon dioxide on the microstructure of PAN fibers during the hot-drawing process. Polymers 2019,11 (3).
专利著作:
获得授权发明专利20件,正在申请10件。
孔海娟,张新异,张有凤,孙卉,丁海泉,利用超临界CO2流体技术进行芳纶纤维无机化改性的方法,国家发明专利,专利号:ZL201710630413.1,
孔海娟,余木火,张有凤,何亮,李忠文,利用超临界CO2流体技术进行芳纶纤维有机化改性的方法,国家发明专利,专利号:ZL 201710629743.9
孔海娟,余木火,丁小马,吴瑶,张有凤,运动状态的芳纶纤维张力作用下的超临界CO2改性方法和装置,国家发明专利,专利号,ZL 201710630379.8
孔海娟,李彪,杜雪,徐前等,超临界二氧化碳聚合制备改性芳纶浆粕/PTFE复合材料的方法,国家发明专利,ZL 202011208308.7
杜雪,孔海娟,李彪等,聚碳酸酯型芳纶纤维复合材料用表面上浆剂及制备和应用,国家发明专利,专利号:ZL202110638105.X
孔海娟,杜雪,李彪等,芳纶纤维水溶性环氧树脂表面上浆剂及其制备和应用,国家发明专利,专利号:ZL 202110638084.1
孔海娟,徐前,余木火,刘胜春,王景朝,陈海龙,一种芳纶纤维复合材料用表面上浆剂的制备方法,国家发明专利,专利号:202010724401.7
张新异,孔海娟,余木火,柴进,胡之峰,丁海全,孙卉,一种可精确控制胶接胶层厚度的工装,实用新型专利,专利号:201821863462.6
获奖信息:
2022年度上海市科技进步一等奖,高性能纤维增强复合材料规模制造与应用关键技术,(排名6/14),2023.5
2021年度中国纺织工业联合会科技进步一等奖,对位芳纶规模化制造关键技术与装备国产化(排名2/15),2021,12
2019年度上海市科技进步一等奖,微创伤介入医疗中空纤维管制备与复合复合增强关键技术与产业化(排名4/14),2020.4
2017年中国复合材料学会优秀博士论文提名奖,“聚对苯二甲酰对苯二胺树脂合成及其纤维高性能化研究”
2014年度上海市科技进步一等奖,超高分子量聚对苯二甲酰对苯二胺及其芳纶纤维制备关键技术与生产装备国产化(排名5/15),2015.4
2014年度中国纺织工业联合会科技进步一等奖,高模量芳纶纤维产业化关键技术及其成套装备研发(5/15),2014.11]
中国化纤协会、恒逸基金”征文一等奖,超高分子量PPTA树脂及其高模量芳纶纤维的结构与性能
上海工程技术大学优秀本科毕业设计指导教师,2017
上海工程技术大学年度优秀教师,2019, 2022