Yang GAO, CV Curriculum Vitae Personal Information Prof. Dr. Yang Gao Date of Birth: January 1976 Sex: Male Nationality: Chinese Contact Information Postal address: Qinghua Donglu, 17, P.O. Box 74 Haidian District, Beijing 100083 P.R. China Phone: +86-10-6273-6411 Email: gaoyangg@gmail.com Education 2001.09 – 2005.01: Ph.D. in Solid Mechanics Department of Mechanics and Aerospace Engineering, Peking University, China Supervisor: Min-Zhong WANG 1999.09 – 2001.07: MSc in Solid Mechanics Department of Mechanics and Aerospace Engineering, Peking University, China Supervisor: Min-Zhong WANG 1995.09 – 1999.07: BEng in Solid Mechanics Department of Applied Mechanics, Beijing Institute of Technology, China. Professional Position August 2009 – July 2011: Guest professor and Alexander von Humboldt research Fellowship, at TU Bergakademie Freiberg and University of Kassel, Germany March 2005 – present: Lecturer, associate professor, full professor of College of Science in China Agriculture University, China Editors Editorial Board, International Journal of Mechanics Research, 2013Editorial Board, Modern Physics, 2013- Research Interests 1 Yang GAO, CV Elasticity and defects of concerning mechanical/physical behavior of heterogeneous material, taking into account the interaction among multi-physics phenomena Exact theories and fracture analysis of beams, plate and shell in coupling fields (e.g., mechanical, thermal, electrical, magnetic, etc.) Fundamental problems in piezoelectric and quasicrystal media (e.g., boundary value problem, crack problem, dislocation problem and inclusion problem, etc.) Some direct and systematic methods of mathematical physics and function theory (e.g., displacement function, stress function, Green function, holomorphic vector function, etc.) Mechanics of piezoelectric and quasicrystal media and mechanical/physical phenomena related to surface/interface/interphase Teaching Experience Undergraduate Courses Taught: Theoretical Mechanics, Mechanics of Materials, Experiment of Mechanics Graduate Course Taught: Continuum Mechanics Class Adviser: 26 undergraduate students Supervised undergraduate: 8 BEng students Supervise postgraduate: 7 MEng students and 2 PhD students Research Experience Research at TU Bergakademie Freiberg and University of Kassel (2009.08 – 2011.07) The generalized Stroh method and Lekhniskii theory of QCs The influence of a dislocation and interaction between some defects on the mechanical behavior of QCs The interaction between phonon and phason activity and the fracture criteria for quasicrystalline materials Coupled plane-bending problem with a plane through-thickness crack Research at China Agricultural University (2005.03 – present) Elasticity and defects concerning mechanical/physical behavior of piezoelectric and quasicrystalline materials Boundary value problem, crack problem and dislocation problem in piezoelectric and quasicrystal media Stroh theory and Lekhnitskii theory applied in elasticity of quasicrystals Exact theories and appropriate boundary condtions of beams, plate and shell Taking charge 1 project of Alexander von Humboldt Foundation in Germany, 2 projects of the National Natural Science Foundation of China, 1 project of the Natural Science Foundation of Beijing and 2 projects of Outstanding Talents 2 Yang GAO, CV Foundation of China Agricultural University Participating in 2 projects of the National Natural Science Foundation of China Research Assistant, Peking University (1999.09 – 2005.02) Anisotropic elasticity, mathematical theory of elasticity Beam, plate and shell theory in coupling fields (e.g., mechanical, thermal, electrical, magnetic, etc.) Characterization of quasicrystal materials and composites Modeling and analysis of crack and inclusion problems Participated in 2 projects of the National Natural Science Foundation of China, 1 project of the Doctoral Program of Ministry of Education of China and 1 project of the President Foundation of Peking University 3 Yang GAO, CV List of Publications Doctoral dissertation Gao Y. (Supervised by Wang M. Z.) (2004): The Refined Theory and the Decomposed Theorem of Multi-field-coupling Beams of Rectangular Cross-section. Peking University. (in Chinese) A) Books/Book Chapter 1. Gao Y. (in press): Boundary conditions for beam bending in two-dimensional quasicrystals with crystal rotational symmetry. In: Quasicrystals Types, Systems, and Techniques, Beth E. Puckermann (Ed.), New York: Nova Publishers, 175-188. 2. Gao, Y., Xu, B. X. and Zhao, B. S. (2008): The exact theories of rectangular beams based on linear elasticity. In: Applied Mathematical Modeling, Eetu N. Virtanen(Ed.), New York: Nova Science Publishers, 185-220. 3. Fu, Z. Y., Xu, C. H., Zhang, L. N., Zhou, Z. and Gao, Y. (2006): Guide to Mechanics of Materials. Beijing. China Agricultural University Press. (in Chinese) B) Articles in journals In 2013 1. Xu B. X., Gao Y. and Wang M. Z.. Particle packing and the mean theory. Physics Letters A, 2013, 377 (3), 145-147. 2. Yang L. Z., Zhang L. L. and Gao Y.. General solutions of plane problem in one-dimensional hexagonal quasicrystals. Applied Mechanics and Materials, 2013, 275-277, 101-104. 3. Yang L. Z., Shang L. G., Gao Y. and Wang M. Z.. Further study on the refined theory of rectangle deep beams. Acta Mechanica, in press 4. Yang L. Z., Zhang L. L. Song F. and Gao Y.. General solutions for three-dimensional thermo-elasticity of two-dimensional hexagonal quasicrystals and an application. Journal of Thermal Stresses, in press In 2012 1. Gao Y. and Ricoeur A.. Three-dimensional analysis of a spheroidal inclusion in a two-dimensional quasicrystal body. Philosophical Magazine, 2012, 92 (34), 4334-4353. 2. Gao Y. and Ricoeur A.. Three-dimensional analysis of a spheroidal inclusion in a two-dimensional quasicrystal body. Philosophical Magazine, 2012, 92 (34), 4334-4353. 3. Gao Y. and Ricoeur A.. The refined theory of plane problems for one-dimensional quasicrystalline bodies. Journal of Applied Mechanics-Transactions of the ASME, 2012, 79 (1), 011004. 4. Gao Y., Zhao B. S. and Wang M. Z.. Thermoelasticity theory and the decomposed form of thick plates for extensional deformation. Acta Mechanica, 2012, 223 (4), 755-764. 5. Gao Y.. Lekhnitskii’s formalism of one-dimensional quasicrystals and its application. Pramana-Journal of Physics, 2012, 79 (2), 311-318. 4 Yang GAO, CV 6. Gao Y.. The decomposed form of the stress state for transversely isotropic beam bending based on elastic theory. ZAMM-Zeitschrift fur Angewandte Mathematik und Mechanik, 2012, 92 (9), 709-715. 7. Gao Y.. Singular problems of spherically uniform anisotropic piezoelectric solids. Advanced Materials Research, 2012, 415-417, 19-24. 8. Gao Y. and Xu B. X.. Stress and Mixed boundary conditions for bending and stretching of transversely isotropic elastic beams. Advanced Science Letters, 2012, 16 (1), 372-376. 9. Zhao B. S., Gao Y. and Zhao Y. T.. Boundary conditions for axisymmetric circular cylinder in one-dimensional hexagonal quasicrystals. Archive of Applied Mechanics, 2012, 82 (5), 605-614. 10. Zhao Y. T., Gao Y. and Wang M. Z.. Inhomogeneity problem with a sliding interface under remote shearing stress. Science China: Physics, Mechanics and Astronomy, 2012, 55 (11), 2122-2127. 11. Zhao B. S., Zhao Y. T. and Gao Y.. The decomposed theorem of torsional circular shaft with two-dimensional dodecagonal quasicrystal. Advanced Materials Research, 2012, 341-342, 1-5. In 2011 1. Gao Y. and Ricoeur A.. Three-dimensional Green's functions for two-dimensional quasicrystal bimaterials. Proceedings of the Royal Society A, 2011, 467 (2133), 2622-2642. 2. Gao Y., Ricoeur A. and Zhang L.. Plane problems of cubic quasicrystal media with an elliptic hole or a crack. Physics Letters A, 2011, 375 (28-29), 2775-2781. 3. Gao Y. and Ricoeur A.. The refined theory of one-dimensional quasicrystals in thick plate structures. Journal of Applied Mechanics–Transactions of the ASME, 2011, 78 (3), 031021. 4. Gao Y.. Decay conditions for 1D quasicrystal beams. IMA Journal of Applied Mathematics, 2011, 76 (4), 599-609. 5. Gao Y. and Shang L. G.. Governing equations and general solutions of plane elasticity of two-dimensional decagonal quasicrystals. International Journal of Modern Physics B, 2011, 25 (20), 2769-2778. 6. Zhao B. S., Zhao Y. T., Gao Y. and Zhang D. C.. A deformation theory without ad hoc assumption of an axisymmetric circular cylinder. Acta Mechanica, 2011, 216 (1-4) 37-47. 7. Zhao B. S., Gao Y. and Zhao Y. T.. Boundary conditions for axisymmetric circular cylinder of cubic quasicrystal. Advanced Materials Research, 2011, 160-162, 204-209. 8. Zhao B. S., Gao Y. and Zhao Y. T.. The refined analysis about mechanical behavior for torsional circular shaft of cubic quasicrystal. Advanced Materials Research, 2011, 213, 83-87. 9. Zhao B. S., Shi J. L., Zhao Y. T. and Gao Y.. The general solution for torsional circular shaft of cubic quasicrystal. Advanced Materials Research, 2011, 213, 206-210. 10. Zhao B. S., Zhao Y. T. and Gao Y.. The exact deformation theory of two-dimensional dodecagonal quasicrystal Shaft. Advanced Materials Research, 2011, 213, 276-280. 11. Zhao B. S., Gao Y., Zhao Y. T. and Zhang D. C. Refined analysis of axi-symmetric circular cylinder in the axial magnetic field without ad hoc assumption. Frontiers of Mechanical Engineering, 2011, 6 (3), 318-323. 5 Yang GAO, CV In 2010 1. Gao Y. and Ricoeur A.. Green’s functions for infinite bi-material planes of cubic quasicrystals with imperfect interface. Physics Letters A, 374 (42), 4354-4358. 2. Gao Y.. The exact theory of one-dimensional quasicrystal deep beams. Acta Mechanica, 2010, 212 (3-4), 283-292. 3. Gao Y. and Shang L. G.. The exact theory of deep beams without ad hoc assumptions. Mechanics Research Communications, 2010, 37 (6), 559-564. 4. Gao Y. and Xu B. X.. The refined theory for a magnetoelastic body - II. Plane problems. International Journal of Applied Electromagnetics and Mechanics, 2010, 32 (1), 31-46. 5. Gao Y.. The refined theory of magnetoelastic beams for tension and compression deformation. International Journal for Applied Electromagnetics and Mechanics, 2010, 34 (1-2), 63-71. 6. Gao Y. Green’s functions for infinite planes and bi-material half-planes consisting of quasicrystals. Journal of Zhejiang University-Science A, 2010, 11 (10), 835-840. 7. Zhao B. S., Gao Y., Zhao Y. T. and Zhou X. Y.. Boundary conditions for an axisymmetric circular cylinder. Comptes Rendus Mecanique, 2010, 338 (5), 255-259. 8. Chen G., Zhao B. S. and Gao Y.. A refined theory of beams resting on pasternak foundation from Airy’s stress function. Journal of Materials Science and Engineering, 2010, 4 (1), 75-79. In 2009 1. Gao Y.. Governing equations and general solutions of plane elasticity of cubic quasicrystals. Physics Letters A, 2009, 373 (8-9), 885-889. 2. Gao Y.. The appropriate edge conditions for two-dimensional quasicrystal semi-infinite strips with mixed edge-data. International Journal of Solids and Structures, 2009, 46 (9), 1849-1855. 3. Gao Y.and Zhao B. S.. A refined theory of elastic thick plates for extensional deformation. Archive of Applied Mechanics, 2009, 79 (1), 5-18. 4. Gao Y., and Zhao B. S.. General solutions of three-dimensional problems for two-dimensional quasicrystals. Applied Mathematical Modelling, 2009, 33 (8), 3382-3391. 5. Gao Y.and Zhao B. S.. The refined theory for a magnetoelastic body - I. plate problems. International Journal of Applied Electromagnetics and Mechanics, 2009, 29 (1), 1-14. 6. Gao Y., Xu S. P. and Zhao B. S.. General solutions of equilibrium equations for 1D hexagonal quasicrystals. Mechanics Research Communications, 2009, 36 (3), 302-308. 7. Gao Y., Xu S. P. and Zhao B. S.. Mixed boundary conditions for piezoelectric plates. Science in China Series G, 2009, 52 (5), 755-761. 8. Gao Y. and Wang M. Z.. The refined theory of deep rectangular beams for symmetrical deformation. Science in China Series G, 2009, 52 (6), 919-925. 9. Zhao B. S., Gao Y. and Wu X. E.. A refined theory of torsional deformation of a circular shaft. Acta Mechanica, 2009, 207 (1-2), 1-10. 10. Wang M. Z., Gao Y. and Zhao B. S.. The refined theory of thermoelastic beams posting inside Winkler foundation. Journal of Mechanics and MEMS, 1 (2), 2009, 191-196. 11. Zhao B. S., Gao Y. and Chen X.. A refined theory of a transversely isotropic elastic layer 6 Yang GAO, CV posting inside elastic foundation. Journal of Materials Science and Engineering, 2009, 3 (8), 49-53. 12. Zhao B. S., Gao Y. and Wu X. E.. The jump of displacement gradient across the edge in the Eshelby’s problem. Chinese Journal of Solid Mechanics, 2009, 30 (1), 61-64. (in Chinese) 13. Zhao B. S., Tong J. L. and Gao Y.. A refined theory of beam posting inside linear elastic foundation soil. Engineering Mechanics, 2009, 26 (Suppl. 1), 16-19. (in Chinese) In 2008 1. Gao Y., Xu B. X., Zhao B. S. and Chang T. C.. New general solutions of plane elasticity of one-dimensional quasicrystals. Physica Status Solidi B, 2008, 245 (1), 20-27. 2. Gao Y., Xu S. P. and Zhao B. S.. A theory of general solutions of 3D problems in 1D hexagonal quasicrystals. Physica Scripta, 2008, 77 (1), 015601. 3. Gao Y., Zhao B. S. and Xu S. P.. A theory of general solutions of plane problems in two-dimensional octagonal quasicrystals. Journal of Elasticity, 2008, 93 (3), 263-277. 4. Gao Y. and Xu B. X.. The remarkable nature of one-dimensional quasicrystal. Zeitschrift fur Kristallographie, 2008, 223 (11-12), 809-812. 5. Gao Y., Zhao B. S. and Xu B. X.. The decomposed form and boundary conditions of elastic beams with free faces. Acta Mechanica, 2008, 196 (3-4), 193-203. 6. Gao Y. and Xu B. X.. Method on holomorphic vector functions and applications in two-dimensional quasicrystals. International Journal of Modern Physics B, 2008, 22 (6), 635-643. 7. Gao Y., Xu S. P. and Zhao B. S.. Boundary conditions for the bending of a piezoelectric beam. Science in China Series G, 2008, 51 (7), 847-856. 8. Gao Y., Wang M. Z. and Zhao B. S.. The remarkable nature of radially symmetric deformation of anisotropic piezoelectric inclusion. Acta Mechanica Solida Sinica, 2008, 21 (3), 278-282. 9. Xu S. P., Gao Y. and Wang W.. Completeness of general solutions for three-dimensional transversely isotropic piezoelectricity. International Journal of Solids and Structures, 2008, 45 (18-19), 5118-5126. In 2007 1. Gao, Y. and Zhao, B. S. (2007): A note on the nonuniqueness of Boussinesq-Galerkin solution in elastic theory. International Journal of Solids and Structures 44 (5), 1685-1689. 2. Gao, Y., Zhao, Y. T. and Zhao, B. S. (2007): Boundary value problems of holomorphic vector functions in 1D QCs. Physica B-Condensed Matter 394, 56-61. 3. Gao, Y. and Wang, M. Z. (2007): The equivalence of the refined theory and the decomposed theorem of rectangular beams. Applied Mathematical Modelling 31 (3), 551-563. 4. Gao, Y., Xu, S. P. and Zhao, B. S. (2007): Boundary conditions for elastic beam bending. Comptes Rendus Mecanique 335 (1), 1-6. 5. Gao, Y., Xu, S. P. and Zhao, B. S. (2007): Boundary conditions for plate bending in one-dimensional hexagonal quasicrystals. Journal of Elasticity 86 (3), 221-233. 6. Gao, Y., Xu, B. X. and Zhao, B. S. (2007): The decomposed form of magnetoelastic beams with free faces. Acta Mechanica 192 (1-4), 235-242. 7 Yang GAO, CV 7. Gao, Y., Xu, B. X. and Zhao, B. S. (2007): The refined theory of beams for a transversely isotropic body. Acta Mechanica, 191 (1-2), 109-122. 8. Gao, Y., Wang, M. Z. and Zhao, B. S. (2007): The refined theory of rectangular curved beams. Acta Mechanica 189 (3-4), 141-150. 9. Gao, Y. and Zhao, B. S. (2007): The refined theory of thermoelastic plane problems. Journal of Thermal Stresses 30 (12), 1233-1248. 10. Gao, Y. and Zhao, B. S. (2007): The refined theory of thermoelastic rectangular plates. Journal of Thermal Stresses 30 (5), 505-520. 11. Gao, Y., Xu, S. P. and Zhao, B. S. (2007): Stress and mixed boundary conditions for two-dimensional dodecagonal quasi-crystal plates. Pramana-Journal of Physics 68 (5), 803-817. 12. Xu, S. P., Gao, Y. and Wang W. (2007): On boundary conditions for transversely isotropic piezoelectric plates. Mechanics Research Communications 34 (5-6), 480-487. 13. Gao Y., Xu S. P. and Zhao B. S. (2007): New boundary conditions for piezoelectric plates, In: Piezoelectricity, Acoustic Waves and Device Applications, Eds. Wang J. and Chen W. Q. (Singapore: World Scientific), 123-128. In 2006 1. Gao, Y. and Zhao, B. S. (2006): A general treatment of three-dimensional elasticity of quasicrystals by an operator method. Physica Status Solidi B-Basic Solid State Physics 243 (15), 4007-4019. 2. Gao, Y. and Wang, M. Z. (2006): Comment on “Stress boundary conditions for plate bending” by F.Y.M. Wan [Int. J. Solids Struct. 40 (2003) 4107–4123]. International Journal of Solids and Structures 43 (6), 1854-1855. 3. Gao, Y. and Wang, M. Z. (2006): The refined theory of deep rectangular beams based on general solutions of elasticity. Science in China Series G-Physics Mechanics & Astronomy 49 (3), 291-303. 4. Gao, Y. and Wang, M. Z. (2006): The refined theory of transversely isotropic piezoelectric rectangular beams. Science in China Series G-Physics Mechanics & Astronomy 49 (4), 473-486. 5. Gao, Y. and Wang, M. Z. (2006): A refined of thermoelastic beams under steady temperature. Engineering Mechanics 23 (2), 34-40. (in Chinese) 6. Zhao, B. S., Gao, Y. and Wang, M. Z. (2006): Barnett-Lothe’s Matrices in multi-freedom vibration systems. Journal of Anshan University of Science and Technology 29 (5), 471-474. (in Chinese) 7. Zhao, B. S., Gao, Y. and Wang, M. Z. (2006): Stroh’s formula in multi-freedom forced vibration systems. Journal of Anshan University of Science and Technology 29 (6), 581-583. (in Chinese) In 2005 1. Gao, Y. and Wang, M. Z. (2005): A refined beam theory based on the refined plate theory. Acta Mechanica 177 (1-4), 191-197. 2. Gao, Y. and Wang, M. Z. (2005): Abel transform of equilibrium equation of axisymmetric problem. Acta Scientiarum Naturalium Universitatis Pekinensis 41 (1), 62-65. (in Chinese) 8 Yang GAO, CV 3. Gao, Y. and Wang, M. Z. (2005): The decomposed theorem of rectangular beams. Engineering Mechanics 22 (Supplement), 58-61. (in Chinese) 4. Gao, Y. and Wang, M. Z. (2005): The equivalence of the refined theory and the decomposed theorem of thermoelastic beams under steady temperature. Chinese Journal of Applied Mechanics 22 (2), 164-168. (in Chinese) 5. Gao, Y. and Wang, M. Z. (2005): The decomposed theorem of thermoelastic beams under steady temperature, Acat Mechanica Solida Sinica 26 (Supplement), 38-41. (in Chinese) In 2004 1. Gao, Y. and Wang, M. Z. (2004): The refined theory of magnetoelastic rectangular beams. Acta Mechanica 173 (1-4), 147-161. 2. Zhao, Y. T., Gao, Y. and Wang, M. Z. (2004): The ellipsoidal inhomogeneity with imperfect interface. Acta Scientiarum Naturalium Universitatis Pekinensis 40 (5), 712-721. 9