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      KCI등재 SCIE SCOPUS

      Green’s-function-based-finite element analysis of fully plane anisotropic elastic bodies

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      https://www.riss.kr/link?id=A107024924

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      다국어 초록 (Multilingual Abstract)

      In the paper, an anisotropic Green’s function based hybrid finite element was developed for solving fully plane anisotropic elastic materials. In the present hybrid element, the interior displacement and stress fields were approximated by the linear...

      In the paper, an anisotropic Green’s function based hybrid finite element was developed for solving fully plane anisotropic elastic materials. In the present hybrid element, the interior displacement and stress fields were approximated by the linear combination of anisotropic Green’s functions derived by Lekhnitskii formulation, the element frame fields were constructed by the interpolation of general shape functions widely used in the conventional finite element, and then they are linked by a new double-variable hybrid functional.

      Because the approximated interior fields exactly satisfied the governing equations related to anisotropic elasticity, all integrals in the present hybrid functional were performed along the element boundary and theoretically arbitrary hybrid polygonal element can be constructed. Finally, the present hybrid polygonal element with four edges was verified by making comparison of numerical results and exact solutions in a cantilever composite beam made with angled lamina.

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      참고문헌 (Reference)

      1 S. G. Lekhnitskii, "Theory of elasticity of an anisotropic body" Holden-Day 1963

      2 E. Carrera, "Theories and finite elements for multilayered, anisotropic, composite plates and shells" 9 (9): 87-140, 2002

      3 O. C. Zienkiewicz, "The finite element method: Solid mechanics" Butterworth-Heinemann 2000

      4 D. T. Reilly, "The elastic and ultimate properties of compact bone tissue" 8 (8): 393-405, 1975

      5 Q. H. Qin, "Solving anti-plane problems of piezoelectric materials by the Trefftz finite element approach" 31 (31): 461-468, 2003

      6 S. M. Chern, "On displacement fields in orthotropic laminates containing an elliptical hole" 67 (67): 527-539, 2000

      7 A. K. Kaw, "Mechanics of Composite Materials" CRC Press 2006

      8 Q. H. Qin, "MATLAB and C Programming for Trefftz Finite Element Methods" CRC Press 2009

      9 Q. H. Qin, "Hybrid-Trefftz finite element method for Reissner plates on an elastic foundation" 122 (122): 379-392, 1995

      10 H. Wang, "Hybrid FEM with fundamental solutions as trial functions for heat conduction simulation" 22 (22): 487-498, 2009

      1 S. G. Lekhnitskii, "Theory of elasticity of an anisotropic body" Holden-Day 1963

      2 E. Carrera, "Theories and finite elements for multilayered, anisotropic, composite plates and shells" 9 (9): 87-140, 2002

      3 O. C. Zienkiewicz, "The finite element method: Solid mechanics" Butterworth-Heinemann 2000

      4 D. T. Reilly, "The elastic and ultimate properties of compact bone tissue" 8 (8): 393-405, 1975

      5 Q. H. Qin, "Solving anti-plane problems of piezoelectric materials by the Trefftz finite element approach" 31 (31): 461-468, 2003

      6 S. M. Chern, "On displacement fields in orthotropic laminates containing an elliptical hole" 67 (67): 527-539, 2000

      7 A. K. Kaw, "Mechanics of Composite Materials" CRC Press 2006

      8 Q. H. Qin, "MATLAB and C Programming for Trefftz Finite Element Methods" CRC Press 2009

      9 Q. H. Qin, "Hybrid-Trefftz finite element method for Reissner plates on an elastic foundation" 122 (122): 379-392, 1995

      10 H. Wang, "Hybrid FEM with fundamental solutions as trial functions for heat conduction simulation" 22 (22): 487-498, 2009

      11 Q. H. Qin, "Green's function and boundary elements of multifield materials" Elsevier 2007

      12 Q. H. Qin, "General solutions for thermopiezoelectrics with various holes under thermal loading" 37 (37): 5561-5578, 2000

      13 H. Wang, "Fundamental-solution-based hybrid FEM for plane elasticity with special elements" 48 (48): 515-528, 2011

      14 H. Wang, "Fundamental-solution-based finite element model for plane orthotropic elastic bodies" 29 (29): 801-809, 2010

      15 E. Pan, "Fracture mechanics analysis of cracked 2-D anisotropic media with a new formulation of the boundary element method" 77 (77): 161-174, 1996

      16 P. Sollero, "Fracture mechanics analysis of anisotropic plates by the boundary element method" 64 (64): 269-284, 1993

      17 Q. H. Qin, "Crack growth prediction of an inclined crack in a half-plane thermopiezoelectric solid" 26 (26): 185-191, 1997

      18 H. Wang, "Boundary integral based graded element for elastic analysis of 2D functionally graded plates" 33 : 12-23, 2012

      19 P. K. Banerjee, "Boundary element methods in engineering science" McGraw-Hill 1981

      20 C. L. Tan, "Boundary element analysis of plane anisotropic bodies with stress concentrations and cracks" 20 (20): 17-28, 1992

      21 T. A. Cruse, "Boundary element analysis in computational fracture mechanics" Kluwer Academic Publisher 1988

      22 Q. H. Qin, "BEM for crack-hole problems in thermopiezoelectric materials" 69 (69): 577-588, 2002

      23 A. M. O'Mahony, "Anisotropic elasticity of cortical and cancellous bone in the posterior mandible increases peri-implant stress and strain under oblique loading" 12 (12): 648-657, 2001

      24 H. Wang, "A new special element for stress concentration analysis of a plate with elliptical holes" 223 : 1323-1340, 2012

      25 Y. B. Wang, "A new boundary integral equation method for cracked 2-D anisotropic bodies" 72 (72): 2128-2143, 2005

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