Browsing by Author Wang, Hongjian

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Showing results 1 to 14 of 14
Issue DateTitleAuthor(s)Citation
2017Comparative Study on the Wear Behaviour of Two High-Temperature-Resistant Polymers [Forthcoming]Chang, Li; Fu, Kunkun; Wang, Hongjian; Zhang, Ga; Aerospace, Mechanical and Mechatronic Engineering; Aerospace, Mechanical and Mechatronic Engineering; Aerospace, Mechanical and Mechatronic EngineeringComparative Study on the Wear Behaviour of Two High-Temperature-Resistant Polymers [Forthcoming], Tribology Letters, vol.65, 2, 2017,pp 1-12
2014Geometry-Induced Asymmetric Capillary FlowFu, Kunkun; Shou, Dahua; Wang, Hongjian; Ye, Lin; Chen, Qing; Fan, Jintu; Mei, Maofei; Aerospace Mech & M'tronic Eng; Aerospace Mech & M'tronic Eng; Aerospace Mech & M'tronic Eng; Aerospace Mech & M'tronic EngGeometry-Induced Asymmetric Capillary Flow, Langmuir, vol.30, 19, 2014,pp 5448-5454
2014Geometry-Induced Asymmetric Capillary FlowFu, Kunkun; Shou, Dahua; Wang, Hongjian; Ye, Lin; Chen, Qing; Fan, Jintu; Mei, Maofei; Aerospace, Mechanical and Mechatronic Engineering; Aerospace, Mechanical and Mechatronic Engineering; Aerospace, Mechanical and Mechatronic Engineering; Aerospace, Mechanical and Mechatronic EngineeringGeometry-Induced Asymmetric Capillary Flow, Langmuir, vol.30, 19, 2014,pp 5448-5454
2014Geometry-Induced Asymmetric Capillary FlowFu, Kunkun; Shou, Dahua; Wang, Hongjian; Ye, Lin; Chen, Qing; Fan, Jintu; Mei, Maofei; Aerospace, Mechanical and Mechatronic Engineering; Aerospace, Mechanical and Mechatronic Engineering; Aerospace, Mechanical and Mechatronic Engineering; Aerospace, Mechanical and Mechatronic EngineeringGeometry-Induced Asymmetric Capillary Flow, Langmuir, vol.30, 19, 2014,pp 5448-5454
2014Geometry-Induced Asymmetric Capillary FlowFu, Kunkun; Shou, Dahua; Wang, Hongjian; Ye, Lin; Chen, Qing; Fan, Jintu; Mei, Maofei; Aerospace, Mechanical and Mechatronic Engineering; Aerospace, Mechanical and Mechatronic Engineering; Aerospace, Mechanical and Mechatronic Engineering; Aerospace, Mechanical and Mechatronic EngineeringGeometry-Induced Asymmetric Capillary Flow, Langmuir, vol.30, 19, 2014,pp 5448-5454
2014Geometry-Induced Asymmetric Capillary FlowFu, Kunkun; Shou, Dahua; Wang, Hongjian; Ye, Lin; Chen, Qing; Fan, Jintu; Mei, Maofei; Aerospace, Mechanical and Mechatronic Engineering; Aerospace, Mechanical and Mechatronic Engineering; Aerospace, Mechanical and Mechatronic Engineering; Aerospace, Mechanical and Mechatronic EngineeringGeometry-Induced Asymmetric Capillary Flow, Langmuir, vol.30, 19, 2014,pp 5448-5454
2013Micro-cutting tests: a new way to measure the fracture toughness and yield stress of polymeric nanocompositesChang, Li; Wang, Hongjian; Williams, James Gordon; Ye, Lin; Aerospace Mech & M'tronic Eng; Aerospace Mech & M'tronic Eng; Aerospace Mech & M'tronic Eng; Aerospace Mech & M'tronic EngMicro-cutting tests: a new way to measure the fracture toughness and yield stress of polymeric nanocomposites, Proceedings of the 13th International Congress on Fracture (ICF13), vol.N/A, 2013, pp. 1-6
2015On the determination of representative stress-strain relation of metallic materials using instrumented indentationChang, Li; Fu, Kunkun; Wang, Hongjian; Tang, Youhong; Zheng, Bailin; Aerospace Mech & M'tronic Eng; Aerospace Mech & M'tronic Eng; Aerospace Mech & M'tronic EngOn the determination of representative stress-strain relation of metallic materials using instrumented indentation, Materials and Design, vol.65, N/A, 2015,pp 989-994
2015On the determination of representative stress–strain relation of metallic materials using instrumented indentationChang, Li; Fu, Kunkun; Wang, Hongjian; Tang, Youhong; Zheng, Bailin; Aerospace Mech & Mtronic Eng; Aerospace Mech & Mtronic Eng; Aerospace Mech & Mtronic EngOn the determination of representative stress–strain relation of metallic materials using instrumented indentation, Materials and Design, vol.65, N/A, 2015,pp 989-994
2016On the machinability and surface finish of cutting nanoparticle and elastomer modified epoxyChang, Li; Mai, Yiu-Wing; Wang, Hongjian; Williams, James Gordon; Ye, Lin; Aerospace Mech & Mtronic Eng; Aerospace Mech & Mtronic Eng; Aerospace Mech & Mtronic Eng; Aerospace Mech & Mtronic Eng; Aerospace Mech & Mtronic EngOn the machinability and surface finish of cutting nanoparticle and elastomer modified epoxy, Materials and Design, vol.109, N/A, 2016,pp 580-589
2015On the toughness measurement for ductile polymers by orthogonal cuttingChang, Li; Wang, Hongjian; Williams, James Gordon; Ye, Lin; Aerospace Mech & Mtronic Eng; Aerospace Mech & Mtronic Eng; Aerospace Mech & Mtronic Eng; Aerospace Mech & Mtronic EngOn the toughness measurement for ductile polymers by orthogonal cutting, Engineering Fracture Mechanics, vol.149, N/A, 2015,pp 276-286
2017Plastic behaviour of high-strength lightweight Al/Ti multilayered filmsChang, Li; Fu, Kunkun; Maandal, Maricar; Wang, Hongjian; Ye, Lin; Sheppard, Leigh; Yang, Chunhui; Aerospace, Mechanical and Mechatronic Engineering; Aerospace, Mechanical and Mechatronic Engineering; Aerospace, Mechanical and Mechatronic Engineering; Aerospace, Mechanical and Mechatronic Engineering; Aerospace, Mechanical and Mechatronic EngineeringPlastic behaviour of high-strength lightweight Al/Ti multilayered films, Journal of Materials Science, vol.52, 24, 2017,pp 13956-13965
2016Structure, rheological, thermal conductive and electrical insulating properties of high-performance hybrid epoxy/nanosilica/AgNWs nanocompositesChen, Chao; Liu, Hong-Yuan; Mai, Yiu-Wing; Wang, Hongjian; Xie, Xiaolin; Xue, Yang; Xue, Zhigang; Civil Engineering; Aerospace Mech & Mtronic Eng; Aerospace Mech & Mtronic Eng; Aerospace Mech & Mtronic EngStructure, rheological, thermal conductive and electrical insulating properties of high-performance hybrid epoxy/nanosilica/AgNWs nanocomposites, Composites Science and Technology, vol.128, N/A, 2016,pp 207-214
2017Ultra-high specific strength and deformation behavior of nanostructured Ti/Al multilayersAn, Xianghai; Chang, Li; Fu, Kunkun; Wang, Hongjian; Ye, Lin; Sheppard, Leigh; Yang, Chunhui; Aerospace, Mechanical and Mechatronic Engineering; Aerospace, Mechanical and Mechatronic Engineering; Aerospace, Mechanical and Mechatronic Engineering; Aerospace, Mechanical and Mechatronic Engineering; Aerospace, Mechanical and Mechatronic EngineeringUltra-high specific strength and deformation behavior of nanostructured Ti/Al multilayers, Journal of Physics D: Applied Physics, vol.50, 36, 2017,pp 1-7