发表论文
[1] Yanling Wang, Zhaozhu Zhang, Fanjie Chu, Meng Liu, Yaohui He, Peilong Li, Junya Yuan, Mingming Yang. Designing polydopamine-capped BMImPF6@halloysite/NaL microcapsule optimize the wear-resistance of polymer composite liner. TRIBOLOGY INTERNATIONAL[J]. 2023, 179: http://dx.doi.org/10.1016/j.triboint.2022.108104.[2] Yaohui He, Zhaozhu Zhang, Yanling Wang, Meng Liu, Junya Yuan, Peilong Li, Mingming Yang, Weimin Liu. Inspired with fish scale to manufacture biomimetic MXene derivative for the reinforcement on tribological and mechanical properties of PPS fabric/phenolic composites. TRIBOLOGY INTERNATIONAL[J]. 2023, 179: http://dx.doi.org/10.1016/j.triboint.2022.108136.[3] Liu, Meng, Zhang, Zhaozhu, Wang, Yanling, He, Yaohui, Yang, Mingming, Li, Peilong, Yuan, Junya. Synergistic effects of Ti3C2Tx @SiCnws nanofluids and bio-inspired interfacial modification for optimizing tribological behaviors of fabric liners. TRIBOLOGY INTERNATIONAL[J]. 2022, 176: http://dx.doi.org/10.1016/j.triboint.2022.107879.[4] Li, Peilong, Zhang, Zhaozhu, Chen, Zujun, Yang, Mingming, Yuan, Junya, Jiang, Wei. Synchronously improved ozone aging resistance and tribological performance of self-lubricating fabric composites via 2-mercaptobenzimidazole. POLYMER COMPOSITES[J]. 2022, 43(7): 4519-4529, http://dx.doi.org/10.1002/pc.26709.[5] He, Yaohui, Zhang, Zhaozhu, Wang, Yanling, Liu, Meng, Yuan, Junya, Li, Peilong, Yang, Mingming. Combined effect of interfacial modification and ?-ZrP reinforcement on the tribological properties of PPS fabric/phenolic composites. COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS[J]. 2022, 648: http://dx.doi.org/10.1016/j.colsurfa.2022.129118.[6] 赵鑫, 张招柱, 姜葳, 杨明明, 袁军亚, 李佩隆, 储凡杰. 玄武岩鳞片和氟化石墨增强织物复合材料在高速摩擦磨损工况中的应用. 摩擦学学报[J]. 2022, 42(1): 163-175, http://lib.cqvip.com/Qikan/Article/Detail?id=7106939651.[7] Wu, Liangfei, Zhang, Zhaozhu, Yang, Mingming, Yuan, Junya, Li, Peilong, Chen, Zujun, Men, Xuehu. Surface modification of YS-20 with polydopamine for improving the tribological properties of polyimide composites. FRICTION[J]. 2022, 10(3): 411-421, http://dx.doi.org/10.1007/s40544-020-0473-1.[8] Liu, Meng, Zhang, Zhaozhu, Wang, Yanling, Li, Peilong, Yang, Mingming, Yuan, Junya. Constructing the hierarchical TiN@ZIF-8 hybrid for improving the mechanical and tribological performance of fabric composites. COMPOSITES COMMUNICATIONS[J]. 2022, 31: http://dx.doi.org/10.1016/j.coco.2022.101114.[9] Wang, Yanling, Zhang, Zhaozhu, Liu, Meng, He, Yaohui, Li, Peilong, Yuan, Junya, Yang, Mingming. Effects of rod-like attapulgite and lamellar kaolin reinforcement on the tribological behavior of PBO textile-resin composite liner. TRIBOLOGY INTERNATIONAL[J]. 2022, 174: http://dx.doi.org/10.1016/j.triboint.2022.107689.[10] He, Yaohui, Zhang, Zhaozhu, Wang, Yanling, Liu, Meng, Yuan, Junya, Li, Peilong, Yang, Mingming. Combined effect of interfacial modification and ?-ZrP reinforcement on the tribological properties of PPS fabric/phenolic composites. COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS[J]. 2022, 648: http://dx.doi.org/10.1016/j.colsurfa.2022.129118.[11] Wang, Yanling, Zhang, Zhaozhu, Yang, Mingming, Yuan, Junya, Li, Peilong, Liu, Meng, He, Yaohui. Ag nanoparticles homogeneously anchored on kaolin synergistically improve the tribological performance of PBO/phenolic resin liner composites. TRIBOLOGY INTERNATIONAL[J]. 2022, 168: http://dx.doi.org/10.1016/j.triboint.2021.107424.[12] Liu, Meng, Zhang, Zhaozhu, Yang, Mingming, Li, Peilong, Wang, Yanling, He, Yaohui, Yuan, Junya. Novel design of MXene@UiO-66-NH2 hybrid nanofluids towards promoting the mechanical and tribological performance of fabric composites. COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING[J]. 2022, 161: http://dx.doi.org/10.1016/j.compositesa.2022.107122.[13] Yuan, Junya, Zhang, Zhaozhu, Yang, Mingming, Li, Peilong, Zhao, Xin, Wang, Wenjing. Adopting bio-inspired interfacial modification and reinforcements simultaneously for optimizing the tribological performance of fabric composites. TRIBOLOGY INTERNATIONAL[J]. 2022, 169: http://dx.doi.org/10.1016/j.triboint.2022.107495.[14] Wang, Yanling, Zhang, Zhaozhu, Yang, Mingming, Yuan, Junya, Li, Peilong, Liu, Meng. Modified montmorillonite synergizes with Co-MOF@PBO fabric to improve the wear resistance of PBO/phenolic resin composites. JOURNAL OF COLLOID AND INTERFACE SCIENCE[J]. 2022, 611: 480-490, http://dx.doi.org/10.1016/j.jcis.2021.12.101.[15] Li, Peilong, Zhang, Zhaozhu, Yang, Mingming, Yuan, Junya, Jiang, Wei. MoS2-decorated talc hybrid for improving the tribological property of Nomex/PTFE fabric composites. POLYMER COMPOSITES[J]. 2021, 42(11): 5839-5849, http://dx.doi.org/10.1002/pc.26264.[16] Ge, Bo, Tang, Shaowang, Zhang, Hao, Li, Wenzhi, Wang, Min, Ren, Guina, Zhang, Zhaozhu. Water vapor recovery device designed with interface local heating principle and its application in clean water production. JOURNAL OF MATERIALS CHEMISTRY A[J]. 2021, 9(12): 7967-7976, http://dx.doi.org/10.1039/d1ta00078k.[17] Li, Peilong, Zhang, Zhaozhu, Yang, Mingming, Yuan, Junya, Wu, Liangfei, Jiang, Wei, Zhao, Xin, Cai, Ming. Influence of fabric geometry on yarn pull-out property and wear performance of hybrid S-glass/PTFEfabric-reinforced composites. POLYMERS FOR ADVANCED TECHNOLOGIES[J]. 2021, 32(1): 315-325, https://www.webofscience.com/wos/woscc/full-record/WOS:000566802100001.[18] Wang, Jing, Wang, Han, Wang, Yanling, Gao, Peng, Wang, Fushan, Men, Xuehu, Zhang, Zhaozhu, Lu, Yao. Design robust, degradable and recyclable superhydrophobic materials. CHEMICAL ENGINEERING JOURNAL[J]. 2021, 420(420): http://dx.doi.org/10.1016/j.cej.2021.129806.[19] Wang, Han, Wang, Mengke, Wang, Yanling, Wang, Jing, Men, Xuehu, Zhang, Zhaozhu, Singh, Vikramjeet. Synergistic effects of COF and GO on high flux oil/water separation performance of superhydrophobic composites. SEPARATION AND PURIFICATION TECHNOLOGY[J]. 2021, 276(276): http://dx.doi.org/10.1016/j.seppur.2021.119268.[20] Liu, Meng, Zhang, Zhaozhu, Wang, Yanling, Li, Peilong, Yang, Mingming, Yuan, Junya. Synergy of B4C@MoS2 hybrid for significantly improved mechanical and tribological properties of PI/PTFE fabric composites. POLYMER COMPOSITES[J]. 2021, http://apps.webofknowledge.com/CitedFullRecord.do?product=UA&colName=WOS&SID=5CCFccWmJJRAuMzNPjj&search_mode=CitedFullRecord&isickref=WOS:000700560900001.[21] Wang, Mengke, Zi, You, Zhu, Jun, Huang, Weichun, Zhang, Zhaozhu, Zhang, Han. Construction of super-hydrophobic PDMS@MOF@Cu mesh for reduced drag, anti-fouling and self-cleaning towards marine vehicle applications. CHEMICAL ENGINEERING JOURNAL[J]. 2021, 417(417): http://dx.doi.org/10.1016/j.cej.2021.129265.[22] Gao, Peng, Wang, Yanling, Wang, Han, Wang, Jing, Men, Xuehu, Zhang, Zhaozhu, Lu, Yao. Liquid-like transparent and flexible coatings for anti-graffiti applications. PROGRESS IN ORGANIC COATINGS[J]. 2021, 161(161): http://dx.doi.org/10.1016/j.porgcoat.2021.106476.[23] 袁军亚, 杨明明, 李佩隆, 赵鑫, 张招柱. 自润滑关节轴承用织物衬垫摩擦学研究进展. 摩擦学学报[J]. 2021, 41(2): 280-292, http://lib.cqvip.com/Qikan/Article/Detail?id=7104885132.[24] Yuan, Junya, Zhang, Zhaozhu, Yang, Mingming, Li, Peilong, Jiang, Wei, Zhao, Xin, Liu, Weimin, 姜葳. Enhanced high-temperature tribological performance of PTFE/PI fabric composites by simultaneously introducing PDA/SiO2 hybrid coating and aramid product reinforcements. POLYMER COMPOSITES[J]. 2021, 42(7): 3539-3549, http://dx.doi.org/10.1002/pc.26077.[25] Bo Ge, Shaowang Tang, Hao Zhang, Wenzhi Li, Min Wang, Guina Ren, Zhaozhu Zhang. Water vapor recovery device designed with interface local heating principle and its application in clean water production†. J. MATER. CHEM. A[J]. 2021, 7967–7976-, [26] Junya YUAN, Zhaozhu ZHANG, Mingming YANG, Xin ZHAO, Liangfei WU, Peilong LI, Wei JIANG, Xuehu MEN, Weimin LIU, 姜葳. Combined effects of interface modification and micro-filler reinforcements on the thermal and tribological performances of fabric composites. FRICTION[J]. 2021, 9(5): 1110-1126, https://www.webofscience.com/wos/woscc/full-record/WOS:000584355600002.[27] Wu, Liangfei, Zhang, Zhaozhu, Yang, Mingming, Yuan, Junya, Li, Peilong, Guo, Fang, Men, Xuehu. Mulberry-like carbon spheres decorated with UiO-66-NH2 for enhancing the mechanical and tribological performances of UHMWPE composites. TRIBOLOGY INTERNATIONAL[J]. 2020, 141(141): http://dx.doi.org/10.1016/j.triboint.2019.105916.[28] Ge, Bo, Ren, GuiNa, Yang, Hang, Yang, JingJing, Pu, XiPeng, Li, WenZhi, Jin, ChuanYu, Zhang, ZhaoZhu. Fabrication of BiOBr-silicone aerogel photocatalyst in an aqueous system with degradation performance by sol-gel method. SCIENCE CHINA-TECHNOLOGICAL SCIENCES[J]. 2020, 63(5): 859-865, http://lib.cqvip.com/Qikan/Article/Detail?id=7101795664.[29] Yang, Mingming, Zhang, Zhaozhu, Yuan, Junya, Wu, Liangfei, Zhao, Xin, Guo, Fang, Men, Xuehu, Liu, Weimin. Fabrication of PTFE/Nomex fabric/phenolic composites using a layer-by-layer self-assembly method for tribology field application. FRICTION[J]. 2020, 8(2): 335-342, http://lib.cqvip.com/Qikan/Article/Detail?id=7102053906.[30] Wang, Mengke, Zhang, Zhaozhu, Wang, Yanling, Zhao, Xin, Men, Xuehu, Yang, Mingming. Ultrafast Fabrication of Metal-Organic Framework-Functionalized Superwetting Membrane for Multichannel Oil/Water Separation and Floating Oil Collection. ACS APPLIED MATERIALS & INTERFACES[J]. 2020, 12(22): 25512-25520, https://www.webofscience.com/wos/woscc/full-record/WOS:000538515700105.[31] 李佩隆, 张招柱, 杨明明, 袁军亚, 吴良飞, 姜葳, 赵鑫, 蔡明. Influence of fabric geometry on yarn pull-out property and wear performance of hybrid S-glass/PTFE fabric-reinforced composites. POLYM ADV TECHNOL[J]. 2020, 1-11, [32] Wu, Liangfei, Zhang, Zhaozhu, Yang, Mingming, Yuan, Junya, Li, Peilong, Men, Xuehu. Graphene enhanced and in situ-formed alginate hydrogels for reducing friction and wear of polymers. COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS[J]. 2020, 589: http://dx.doi.org/10.1016/j.colsurfa.2020.124434.[33] Wang, Jing, Wang, Han, Wang, Yanling, Wang, Mengke, Singh, Vikramjeet, Men, Xuehu, Zhang, Zhaozhu. Rapid fabrication of a transparent superhydrophobic coating: potential application with pollution-free under construction. APPLIED PHYSICS A-MATERIALS SCIENCE & PROCESSING[J]. 2020, 126(7): https://www.webofscience.com/wos/woscc/full-record/WOS:000542577700005.[34] Wang, Mengke, Zhang, Zhaozhu, Wang, Yanling, Zhao, Xin, Yang, Mingming, Men, Xuehu, Xue, Qunji. Colorful superhydrophobic pigments with superior anti-fouling performance and environmental durability. CHEMICAL ENGINEERING JOURNAL[J]. 2020, 384: http://dx.doi.org/10.1016/j.cej.2019.123292.[35] Wang, Mengke, Zhang, Zhaozhu, Wang, Yanling, Zhao, Xin, Yang, Mingming, Men, Xuehu. Superwetting fabrics towards multifunctional applications: Oil/water separation, anti-fouling and flame-retardance. APPLIED SURFACE SCIENCE[J]. 2020, 508: http://dx.doi.org/10.1016/j.apsusc.2020.145265.[36] Yan, Shiwei, Li, Yong, Xie, Fei, Wu, Jun, Jia, Xiaohua, Yang, Jin, Song, HaoJie, Zhang, Zhaozhu. Environmentally Safe and Porous MS@TiO2@PPy Monoliths with Superior Visible-Light Photocatalytic Properties for Rapid Oil-Water Separation and Water Purification. ACS SUSTAINABLE CHEMISTRY & ENGINEERING[J]. 2020, 8(13): 5347-5359, https://www.webofscience.com/wos/woscc/full-record/WOS:000526363600039.[37] GE Bo, REN GuiNa, ZHAO PengFei, JIN ChuanYu, LI WenZhi, ZHANG ZhaoZhu. Preparation of superhydrophobic CdS cotton using visible light response and its application for the control of water pollution. 中国科学:技术科学英文版[J]. 2019, 62(12): 2236-2242, https://www.sciengine.com/doi/10.1007/s11431-019-9560-7.[38] Yuan, Junya, Zhang, Zhaozhu, Yang, Mingming, Wu, Liangfei, Li, Peilong, Guo, Fang, Men, Xuehu, Liu, Weimin. Combined effects of interface modification and nano-reinforcement via nano-enhanced interphase in hybrid-fabric composites for tribological applications. POLYMER COMPOSITES[J]. 2019, 40(9): 3383-3392, https://www.webofscience.com/wos/woscc/full-record/WOS:000483701100002.[39] Wang, Mengke, Zhang, Zhaozhu, Li, Yong, Men, Xuehu. Multifunctional superamphiphobic fabric with hierarchical structures via a mild water-based strategy. APPLIED SURFACE SCIENCE[J]. 2019, 470: 687-694, http://dx.doi.org/10.1016/j.apsusc.2018.11.185.[40] Wu, Liangfei, Zhang, Zhaozhu, Yang, Mingming, Yuan, Junya, Men, Xuehu, Guo, Fang. A comparative study on wear and friction characteristics of phenolic composite coatings filled with different morphologies ZnO. POLYMERS FOR ADVANCED TECHNOLOGIES[J]. 2019, 30(5): 1173-1181, [41] Yang, Mingming, Zhang, Zhaozhu, Wu, Liangfei, Li, Peilong, Jiang, Wei, Men, Xuehu. Enhancing interfacial and tribological properties of self-lubricating liner composites via Layer-by-Layer self-assembly MgAl-LDH/PAMPA multilayers film on fibers surface. TRIBOLOGY INTERNATIONAL[J]. 2019, 140: 105887-, http://dx.doi.org/10.1016/j.triboint.2019.105887.[42] Yang, Mingming, Zhang, Zhaozhu, Yuan, Junya, Wu, Liangfei, Li, Peilong, Jiang, Wei, Men, Xuehu. Growth of NiFe-layered double hydroxide nano-sheet arrays on hybrid textile for highly tribological performances of self-lubricating liner composites. TRIBOLOGY INTERNATIONAL[J]. 2019, 133: 12-20, http://dx.doi.org/10.1016/j.triboint.2018.12.035.[43] Ge, Bo, Li, Fengyan, Zhao, Xingchuan, Li, Wenzhi, Ren, Guina, Wang, Min, Zhang, Zhaozhu. 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A rapid, facile and practical fabrication of robust PDMS@starch coatings for oil-water separation. JOURNAL OF THE TAIWAN INSTITUTE OF CHEMICAL ENGINEERS[J]. 2019, 99: 215-223, http://dx.doi.org/10.1016/j.jtice.2019.02.031.[47] Yuan, Junya, Zhang, Zhaozhu, Yang, Mingming, Wu, Liangfei, Li, Peilong, Guo, Fang, Men, Xuehu, Liu, Weimin. Coupling hybrid of BN nanosheets and carbon nanotubes to enhance the mechanical and tribological properties of fabric composites. COMPOSITES PART A-APPLIED SCIENCE AND MANUFACTURING[J]. 2019, 123: 132-140, http://dx.doi.org/10.1016/j.compositesa.2019.05.010.[48] Wang, Mengke, Zhang, Zhaozhu, Wang, Yanling, Zhao, Xin, Yang, Mingming, Men, Xuehu. Durable superwetting materials through layer-by-layer assembly: Multiple separations towards water/oil mixtures, water-in-oil and oil-in-water emulsions. 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