专著:
1、Chen Shaohua, Wang Tzuchiang, 《Micro-Scale Plasticity Mechanics》, 2009年, 中国科技大学出版社
2、王自强, 陈少华,《高等断裂力学》, 2009年, 科学出版社
代表性论文(已发表SCI论文210余篇):
[1] Yonggui Cheng, Zhilong Peng, Shaohua Chen, A theoretical model of enhanced adhesion of bioinspired micropillar arrayed surfaces, JMPS, 2024, 186, 105592.
[2] Zheyuan Yu, Peiran Li, Zhilong Peng, Yin Yao, Shaohua Chen. How to select discrete or continuous interfaces in biological materials to achieve a strength-toughness tradeoff, JMPS, 2024, 183, 105502
[3] Changlin Shen, Zhilong Peng, Shaohua Chen, Switchable Adhesion of Gecko-Inspired Hierarchically Wedge-mushroom-shaped Surface, Chem. Eng. J., 2024, 488,150900.
[4] Yaodong Wang, Jianjun Li, Jiejie Li, Shaohua Chen. On the strain delocalization mechanism of Cu/Nb nanolayered composites with amorphous interfacial layers, Int. J. Plasticity, 2024, 172, 103856
[5] Shuai Wang, Lihong Liang, Shaohua Chen. Tensile Strength and Toughness of Carbon Nanotube-Graphene Foam Composite Materials and the Corresponding Microscopic Influence Mechanism, Materials and Design, 2024, 237, 112529.
[6] Feng Qin, Feihu Chen, Junhua Hou, Wenjun Lu, Shaohua Chen, Jianjun Li. Strong resistance to shear instability in multilayered metallic composites by nanoscale amorphous-BCC crystalline interfaces. Mater. Sci. Engineering A, 2024, 891, 145919
[7] Jianan Huang, Dawei Li, Zhilong Peng, Bo Zhang, Yin Yao, Shaohua Chen. A graphene foam-based anti-icing/deicing method with high energy utilization efficiency and wide environmental applicability, ACS Applied Materials & Interfaces, 2023, 15, 43026-43037.
[8] Zheyuan Yu, Peiran Li, Yin Yao, Shaohua Chen. An alternative shear lag model for composites with discrete interfaces, Mech. Mater., 2023, 176, 104530.
[9] Shuai Wang, Chao Wang, Lihong Liang, Shaohua Chen. The role of graphene in graphene-filled carbon nanotube foam and the corresponding microscopic deformation mechanism, Materials and Design, 2023, 231,112043.
[10] Cheng Huang, Yin Yao, Shaohua Chen. Hierarchical toughening mechanisms in face-centered cubic high entropy alloys at room temperature and cryogenic temperatures, PRB, 2023, 107, 174103.
[11] D.W. Li, L.J. Ma, B. Zhang, S.H. Chen. Facile fabrication of robust and photo-thermal super-hydrophobic coating with efficient ice removal and long-term corrosion protection. Chemical Engineering Journal, 2022, 450, 138429.
[12] M. Liu, C.H. Li, Z.L. Peng, Y. Yao, S.H. Chen. A mechanical hand-like functional surface capable of efficiently grasping and non-destructively releasing droplets. Chemical Engineering Journal, 2022, 430, 132749.
[13] C.H. Li, M. Liu, Y. Yao, B. Zhang, Z.L. Peng, S.H. Chen. Locust-inspired direction-dependent transport based on magnetic-responsive asymmetric microplate-arrayed surface. ACS Applied Materials & Interfaces, 2022, 14, 23817-23825.
[14] Y. Yao, J.H. Chen, J. Liu, S.H. Chen. An alternative constitutive model for elastic particle-reinforced hyperelastic matrix composites with explicitly expressed Eshelby tensor. Composites Science and Technology. 2022, 221, 109343.
[15] B.L. Yang, B. Song, C. Zhang, S.H. Chen. Temperature-dependent brittle-ductile transition of α-graphyne nanoscroll and its micromechanism. Carbon, 2022, 191, 98-105.
[16] M. Liu, C.H. Li, Z.L. Peng, S.H. Chen, B. Zhang. A simple but efficient method to transport droplets on arbitrarily controllable paths. Langmuir, 2022, 38, 3917-3924.
[17] H.B. Yin, Z.L. Peng, Y. Yao, S.H. Chen, H.J. Gao. A general solution to the maximum detachment force in thin film peeling. IJSS, 2022, 242, 111546.
[18] C.H. Li, S. Wang, M. Liu, Z.L. Peng, B. Zhang, S.H. Chen. Directional transportation on microplate-arrayed surfaces driven via a magnetic field. ACS Applied Materials & Interfaces, 2021, 13, 37655-37664.
[19] J. Liu, Y. Yao, S.H. Chen, X.H. Li, Z.J. Zhang. A new nanoparticle-reinforced silicone rubber composite integrating high strength and strong adhesion. Composites: Part A, 2021, 151, 106645.
[20] J.J. Li, S.H. Chen, G.J. Weng, W.J. Lu. A micromechanical model for heterogeneous nanograined metals with shape effect of inclusions and geometrically necessary dislocation pileups at the domain boundary. International Journal of Plasticity, 2021, 144, 103024.
[21] L.Y. Huang, Y. Yao, Z.L. Peng, B. Zhang, S.H. Chen. How to achieve a mono-stable Cassie state on a superhydrophobic surface. The Journal of Physical Chemistry B, 2021, 125, 883-894.
[22] C. Huang, B. Yang, X.H. Peng, S.H. Chen. The plastic deformation and hardening mechanisms of nanotwinned cBN ceramics. ACS Applied Materials and Interfaces, 2020, 12 (44), 50161-75.
[23] M. Liu, Z.L. Peng, Y. Yao, Y.Z. Yang, S.H. Chen. Flexible Functional Surface for Efficient Water Collection. ACS Applied Materials and Interfaces, 2020, 12, 12256-12263.
[24] H.B. Yin, L.H. Liang, Y.G. Wei, Z.L. Peng, S.H. Chen. Determination of the interface properties in an elastic film/substrate system. International Journal of Solids and Structures, 2020, 191-192, 473-485.
[25] J.H. Chen, J. Liu, Y. Yao, S.H. Chen. The microstructural damage effect on the mechanical property of silica nanoparticle reinforced silicone rubber composites. Engineering Fracture Mechanics, 2020, 235, 107195 (1-16).
[26] C. Wang, C. Zhang, S.H. Chen. Micro-mechanism and influencing factors of graphene foam elasticity. Carbon, 2019, 148, 267-276.
[27] H.X. Ban, Y. Yao, S.H. Chen, et al. A new constitutive model of micro-particle reinforced metal matrix composites with damage effects. International Journal of Mechanical Sciences, 2019, 152, 524-534.
[28] C. Wang, D.X. Pan, S.H. Chen. Energy Dissipative Mechanism of Graphene Foam Materials. Carbon, 2018, 132, 641-650.
[29] N. Jia, Y. Yao, Z.L. Peng, Y.Z. Yang, S.H. Chen. Surface effect in axisymmetric Hertzian contact problems. International Journal of Solids and Structures, 2018, 150, 241-254.
[30] Y. Yao, S.H. Chen, et al. An interface energy density-based theory considering the coherent interface effect in nanomaterials. Journal of the Mechanics and Physics of Solids, 2017, 99, 321-337.
[31] H.X. Ban, Y. Yao, S.H. Chen, et al. The coupling effect of size and damage in micro-scale metallic materials. International Journal of Plasticity, 2017, 95, 251-263.
[32] C. Wang, C. Zhang, S.H. Chen. The microscopic deformation mechanism of 3D graphene foam materials under uniaxial compression. Carbon, 2016, 109, 666-672.
[33] P.J. Chen, S.H. Chen, J. Peng. Interface behavior of a thin-film bonded to a graded layer coated elastic half-plane. International Journal of Mechanical Sciences, 2016, 115-116, 489-500.
[34] L. Chen, S.H. Chen. Adhesion of a gas-filled membrane on a stretched substrate. International Journal of Solids and Structures, 2015, 69-70, 189-194.
[35] Y. Yao, Y.C. Wei, S.H. Chen. Size effect of the surface energy density of nanoparticles. Surface Science, 2015, 636, 19-24.
[36] S.H. Chen, Y. Yao. Elastic theory of nanomaterials based on surface energy density. Journal of Applied Mechanics,2014, 81, 121002.
[37] Y. Yao, S.H. Chen, P.J. Chen. The effect of a graded interphase on the mechanism of stress transfer in a fiber-reinforced composite. Mechanics of Materials, 2013, 58, 35-54.
[38] Z.L. Peng, S.H. Chen. Effect of pre-tension on the peeling behavior of a bio-inspired nano-film and a hierarchical adhesive structure. Applied Physics Letters, 2012, 101, 163702.
[39] S.H. Chen, B. Feng, Y.G. Wei, T.C. Wang. Prediction of the initial thickness of shear band localization based on a reduced strain gradient theory. Int. J. Solids Struct., 2011, 48, 3099-3111
[40] Z. Peng, S. Chen, A. Soh. Peeling behavior of a bio-inspired nano-film on a substrate. Int. J. Solids Struct. 2010, 47, 1952-1960.
[41] S. Chen, C. Yan, P. Zhang, H. Gao. Mechanics of adhesive contact on a power-law graded elastic half-space. J. Mech. Phys. Solids 2009, 57, 1437-1448
[42] S. Chen, A. Soh. The capillary force in micro- and nano-indentation with different indenter shapes. International Journal of Solids and Structures, 2008, 45, 3122-3137.
[43] S.H. Chen, H.J. Gao. Bio-inspired mechanics of reversible adhesion: orientation-dependent adhesion strength for non-slipping adhesive contact with transversely isotropic elastic materials. J. Mech. Phys. Solids, 2007, 55, 1001-1015.
[44] S.H. Chen, H.J. Gao. Non-slipping adhesive contact between mismatched elastic spheres:a model of adhesion mediated deformation sensor. J. Mech. Phys. Solids, 2006, 54(8), 1548-1567.
[45] S.H. Chen, L. Liu, T.C. Wang. Investigation of the mechanical properties of thin films by nano-indentation considering the effect of thickness and different coating-substrate combination. Surface and Coatings Technology, 2005, 191, 25-32
[46] S.H. Chen, L. Liu, T.C. Wang. Size dependent nanoindentation of a soft film on a hard substrate. Acta Mater., 2004, 52(2), 1089-1095
[47] S.H. Chen, T.C. Wang, S. Kao-Walter. A crack perpendicular to the bimaterial interface in finite solid. Int. J. Solids and Structure, 2003, 40(11), 2731-2755
[48] S.H. Chen, T.C. Wang. A kind of deformation theory for strain gradient effects. Int. J. Plasticity, 2002, 18(8), 971-995
[49] S.H. Chen, Y.C. Gao. Asymptotic analysis based K-S constitutive law for a rubber wedge compressed by a line load at its tip. Mechanics of Materials, 2001, 33(9), 481-491
[50] S.H. Chen, T.C. Wang. A new hardening law for strain gradient effect. Acta Mater., 2000, 48(16), 3997-4005
