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My MSc References

  1. Ambur DR, Starnes Jr JH, Prasad ChB (1995); “Low-speed damage-initiation characteristics of selected laminated composite plates”, AIAA Journal, Vol 33, No 10, pp 1919-1925.

  2. Başar Y, Itskov M, Eckstein A (2000); “Composite laminates: nonlinear interlaminar stress analysis by multi-layer shell elements”, Computer Methods in Applied Mechanics and Engineering, Vol 185, pp 367-397.

  3. Berthelot J-M, Le Corre J-F (2000); “A model for transverse cracking and delamination in cross-ply laminates”, Composites Science and Technology, Vol 60, pp 1055-1066.

  4. Borovkov A, Kiylo O, Misnik Yu, Tripolnikov T (1999); “Finite element stress and analysis of multidirectional laminated composite structures. 2. h-p- refinement and m- adaptive procedures”, Zeitschrift für Angewandte Mathematik und Mechanik, Vol 79, Suppl No 2, pp S527-S528.

  5. Bruno D, Greco F (2000); “An asymptotic analysis of delamination buckling and growth in layered plates”, Int J Solids and Structure, Vol 37, pp 6239-6276.

  6. Chen WF, Han DJ (1988); “Plasticity for Structural Engineers”, Springer-Verlag New York Inc, New York, USA.

  7. Chen W-H, Yang Sh-H (1996); “Multilayer hybrid-stress finite element analysis of composite laminates with delamination cracks origination from transverse cracking”, Engineering Fracture Mechanics, Vol 54, No 5, pp713-729.

  8. de Freitas M, Silva A, Reis L (2000); “Numerical evaluation of failure mechanisms on composite specimens subjected to impact loading”, Composites Part B: Engineering, Vol 31, pp 199-207.

  9. Encyclopaedia Britannica (1994-1999); “Encyclopaedia Britannica CD 99 Multimedia Edition”, Ver 99.0.0.0, 15th edition, Encyclopaedia Britannica Inc.

  10. Espinosa HD, Dwivedi S, Lu H-C (2000); “Modeling impact induced delamination of woven fiber reinforced composites with contact/cohesive laws”, Computer Methods in Applied Mechanics and Engineering, Vol 183, No 3-4, pp 259-290.

  11. FEA (2000); “LUSAS”, Ver 13.2, FEA Ltd.

  1. Ghosh S, Ling Y, Majumdar B, Kim R (2000); “Interfacial debonding analysis in multiple fiber reinforced composites”, Mechanics of Materials, Vol 32, pp 561-591.

  2. Grady JE, Chamis CC, Aiello RA (1989); “Dynamic Delamination Buckling in Composite Laminates Under impact Loading: Computational Simulation”, in: Lagace PA (ed); Composite Materials: Fatigue and Fracture, ASTM—STP 1012, pp 137-149.

  3. Grady JE, Sun CT (1984); “Dynamic Delamination Crack Propagation in a Graphite/Epoxy Laminate”, in: Composite Materials: Fatigue and Fracture, ASTM—STP 907, pp 5-31.

  4. Hashagen F, de Borst R (2000); “Numerical assessment of delamination in fibre metal laminates”, Computer Methods in Applied Mechanics and Engineering, Vol 185, pp 141-159.

  5. Kaziolas DN, Kontoleon MJ, Koltsakis EK, Panagiotopoulos PD (2000); “ Tree-dimensional adhesive contact laws with debonding: a nonconvex energy bundle method”, Computer Methods in Applied Mechanics and Engineering, Vol 186, pp 23-48.

  6. Kinloch AJ, Wang Y, Williams JG, Yayla P (1993); “The mixed-mode delamination of fibre composite materials”, Composites Science and Technology, Vol 47, pp 225-237.

  7. Koh CG, Owen DRJ, Perić D (1995); “Explicit dynamic analysis of elsto-plastic laminated composite shells: implementation of non-iterative stress update schemes for the Hoffman yield criterion”, Computational Mechanics, Vol 16, pp 307-314.

  8. Kouchakzadeh MA, Sekine H (2000); “Compressive buckling analysis of rectangular composite laminates containing multiple delaminations”, Composite Structures, Vol 50, pp 249-255.

  9. Kumar P, Kishore NN (1998); “Initiation and propagation toughness of delamination crack under an impact load”, J Mechanics and Physics of Solids, Vol 46, No 10, pp 1773-1787.

  10. Kwon YW, Aygunes H (1996); “Dynamic finite element analysis of laminated beams with delamination cracks using contact-impact conditions”, Computers & Structures, Vol 58, No 6, pp 1161-1169.

  11. Lagace PA, Wolf E (1995); “Impact damage resistance of several laminated material systems”, AIAA Journal, Vol 33, No 6, pp 1106-1113.

  12. Lingen FJ, Schipperen JHA (2000); “An efficient parallel procedure for the simulation of free edge delamination in composite materials”, Computers & Structures, Vol 76, pp 637-649.

  13. Liu Sh (1994); “Quasi-impact damage initiation and growth of thick-section and toughened composite materials”, Int J Solids and Structures, Vol 31, No 22, pp 3079-3098.

  14. Medina DF, Chen JK (2000); “Tree-dimensional simulations of impact induced damage in composite structures using the parallelized SPH method”, Composites Part A: Applied Science and Manufacturing, Vol 31, pp 853-860.

  15. Mi Y, Crisfield MA (1996); “Analytical Derivation of Load/Displacement Relationship for the DCB and MMB and Proof of the FEA Formulation”, IC-AERO Report 97-02, Dept Aeronautics, Imperial College, London, UK.

  16. Mi Y, Crisfield MA, Davies GAO, Hellweg H-B (1998); “Progressive delamination using interface elements”, J Composite Materials, Vol 32, No 14, pp 1246-1272.

  17. Microsoft (1993-1998); “Microsoft Encarta 99 Encyclopedia Deluxe Edition”, Ver 7.0.33.0000, Microsoft Corporation.

  18. Mohammadi S (1998); “Combined Finite/Discrete Element Analysis of Impact Loading of Composite Shells”, PhD thesis, Dept Civil Engineering, University of Wales Swansea, UK.

  19. Mohammadi S, Owen DRJ, Perić D (1998); “A combined finite/discrete element algorithm for delamination analysis of composites”, Finite Elements in Analysis and Design, Vol 28, pp 321-336.

  20. Owen DRJ, Hinton E (1980); “Finite Elements in Plasticity: Theory and Practice”, Pineridge Press Limited, Swansea, UK.

  21. Owen DRJ, Li ZH (1988); “Elastic-plastic dynamic analysis of anisotropic laminated plates”; Computer Methods in Applied Mechanics and Engineering, Vol 70, pp 349-365.

  22. Razi H, Kobayashi AS (1993); “Delamination in cross-ply laminated composite subjected to low-velocity impact”, AIAA Journal, Vol 31, No 8, pp 1498-1502.

  23. Rinderknecht S, Kröplin B (1997); “A computational method for the analysis of delamination growth in composite plates”, Computers & Structures, Vol 64, No 1-4, pp 359-374.

  24. Rowlands RE (1985); “Strength (Failure) Theories and their Experimental Correlation”, in: Sih GC, Skudra AM (eds); Handbook of Composites, Vol 3-Failure Mechanics of Composites, Elsevier Science Publishers BV, pp 71-125.

  25. Schellekens JCJ (1992); “ Computational Strategies for Composite Structures”, PhD thesis, Technische Universiteit Delft, Holland.

  26. Schoeppner GA, Abrate S (2000); “Delamination threshold loads for low velocity impact on composite laminates”, Composites Part A: Applied Science and Manufacturing, Vol 31, pp 903-915.

  27. Shen W, Wu C (1992); “Computer simulation for damage-failure process of composite plate under high-speed impact”, Engineering Fracture Mechanics, Vol 42, No 1, pp 159-168.

  28. Sprenger W, Gruttmann F, Wagner W (2000); “Delamination growth analysis in laminated structures with continuum-based 3D-shell elements and a viscoplastic softening model”, Computer Methods in Applied Mechanics and Engineering, Vol 185, pp 123-139.

  29. Stevanovic D, Jar P-YB, Kalyanasundaram S, Lowe A (2000); “On crack-initiation condition for mode I and mode II delamination testing of composite materials”, Composites Science and Technology, Vol 60, pp 1879-1887.

  30. Stravroulakis GE, Panagiotopoulos PD (1985); “On the Interface Debonding and Frictional Sliding in Composites: the Material Inclusion Problem”, in: Johnson WS (ed); Delamination and Debonding of Materials, pp 165-172.

  31. Tsai SW, Wu EM (1971); “A general theory of strength for anisotropic materials”, J Composite Materials, Vol 5, pp 58-79. 

Books About: Mechanics of Composites, Computational Mechanics, Contact Mechanics, Fracture Mechanics.

 

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