School of Mechanical Engineering
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Name: Huang Ganyun
Gender: Male
Talent plan:
Professional title: Prof. Dr.
Post:
Institution: Department of Mechanics Specialty: Solid Mechanics
Email: gyhuang@tju.edu.cn Personal website:
Tel: Fax:
Office: Room 418, Building 36, Peiyang Campus
Education:

Academic experience:

Research interest: Mechanical modeling of nano-/micro-structured materials
Adhesive contact, friction and damage

Teaching: Plasticity, Fracture mechanics, Advanced solid mechanics

Academic position:

Academic achievement: AvH Fellowship for postdoctoral fellows (2007.11)
Prize of the second class for natural sciences from the Ministry of Education (2009, as the No.2 contributor)
Selected by the Ministry of Education in the new century talents program (2010.01)


Research projects: Continuum dislocation based plasticity by considering the effect of surface/interface energy (Grant No.NCET-09–0585, MOE)
Indentation and failure of jointed rocks (Grant No. 20120032110012, MOE)
Adhesive contact of nonhomogeneous materials and a preliminary investigation on the attaching mechanisms in biofouling(Grant No. 11072170, NSFC)
Investigation on instability and defect nucleation during the contact and separation of adhesive interfaces (Grant No. 11572216, NSFC)
Investigation on the dissipative plastic models on the basis of dislocation mobility and its interaction with surfaces/interfaces (Grant No.11772220,NSFC)



Selected publications: (1) Y. Lu,  G. Y. Huang, Y. F. Wang,  Y. S. Wang; A mechanical model for elastic wave propagation in nacre-like materials with brick-and-mortar microstructures. J. Appl. Mech., 2022, 89: 091002
(2) Y. J. Ge, G. Y. Huang; A mechanical model of the crack-bridging effect in nacre with interlocking interface. Arch. Appl. Mech., 2022, 92: 151-162
(3) G. Y. Huang, Y. R. Li; Mechanical models for the adhesive friction of nano- and micro-particles. Extreme Mech. Lett., 2021, 49: 101511.
(4) J. F. Yan, G. Y. Huang; A double-Hertz model for adhesive contact between cylinders under inclined forces. Proc. Royal Soc. A, 2019, 475, 20180589.
(5) X. L. Peng, E. Husser, G. Y. Huang, S. Bargmann; Modeling of surface effects in crystalline materials within the framework of gradient crystal plasticity. J. Mech. Phys. Solids, 2018, 112: 508-522.
(6) X. L. Peng, G. Y. Huang; Effect of temperature difference on the adhesive contact between two spheres. Int. J. Eng. Sci., 2017, 116: 25-34.
(7) X. L. Peng, G. Y. Huang; Modeling dislocation absorption by surfaces within the framework of strain gradient crystal plasticity. Int. J. Solid. Struct., 2015, 72: 98-107.
(8) G. Y. Huang, L. Bai; Adhesion of mussel threads like structures in side contact enhanced by graded elastic property. J. Adhesion, 2015, 91: 141-153.
(9) G. Y. Huang; S. W. Yu; Effect of surface piezoelectricity on the electro-mechanical behavior of a piezoelectric ring. Phys. Stat. Solid (b), 2006, 243: R22-R24
(10) G. Y. Huang; Y. S. Wang; D. Gross; Fracture analysis of functionally graded coatings: plane deformation, Euro. J. Mech. A-Solids, 2003, 22: 535-544

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