Computational Fluid and Solid Mechanics 2003.
Title:
Computational Fluid and Solid Mechanics 2003.
Author:
Bathe, K.J.
ISBN:
9780080529479
Personal Author:
Physical Description:
1 online resource (2485 pages)
Series:
Computational Fluid and Solid Mechanics 2003
Contents:
Front Cover -- Computational Fluid and Solid Mechanics 2003 -- Copyright Page -- Contents Volume 1 -- Preface -- Session Organizers -- Fellowship Awardees -- Sponsors -- Part I: Plenary -- Chapter 1. Steel industry: simulation of production processes and product performance evaluation using finite element models -- Chapter 2. Biological simulations at all scales: from cardiovascular hemodynamics to protein molecular mechanics -- Chapter 3. Simulations of complex systems across multiple length scales -- Chapter 4. The role of CAE in product development at Ford Motor Company -- Chapter 5. Nonlinear schemes and multiscale preconditioners for time evolution problems in constrained structural dynamics -- Chapter 6. A numerical method for large-eddy simulation in complex geometries -- Chapter 7. Aerodynamic simulation in aerospace industry: status, needs and expectations from EADS -- Chapter 8. Consequences of modeling on tire development -- Part II: Solids & Structures -- Chapter 9. Interactions between strip and beam elements of a hollow block slab system -- Chapter 10. Structure-medium interaction simulations -- Chapter 11. Nonlinear vibrations of circular cylindrical panels -- Chapter 12. On the buckling mechanisms of large-scale shell structures made of high-strength concrete -- Chapter 13. Nonlinear seismic response of a soil deposit using the Volterra series -- Chapter 14. Membranes and rods from lattice films and chains: modeling and computations -- Chapter 15. Multiscale modelling of crush behaviour of closed-cell aluminium foam -- Chapter 16. A new hybrid formulation for laminated composite materials analysis -- Chapter 17. Higher order terms for a crack terminating at the interface between mismatched solids -- Chapter 18. Calculation of stress intensity factors for bimaterial notches - thermal stresses.
Chapter 19. Phenomenological modelling of structural embrittlement in perforated plates -- Chapter 20. Analysis of a partially closed oblique edge crack under surface travelling load -- Chapter 21. Behaviour of small fatigue cracks emanating from notches in Ti-6A1-4V -- Chapter 22. Bounding surface plasticity for cyclic loaded sand and its implementation -- Chapter 23. Large strain time- and temperature-dependent modeling of PTFE -- Chapter 24. Two-dimensional numerical simulations of magnetic domains in ferromagnetic microstructures -- Chapter 25. An impedance-based piezoelectric-structure interaction model for smart structure applications -- Chapter 26. Development of a crashworthy subfloor concept for a commuter aircraft -- Chapter 27. A microplane model for plane-stress masonry structures -- Chapter 28. External forcing terms in energy-conserving based time integration algorithms -- Chapter 29. Quasi-steady analysis of a two-dimensional bridge deck element -- Chapter 30. An index reduction method in holonomic system dynamics -- Chapter 31. Multiscale numerical simulation of rock slope instabilities -- Chapter 32. RL models of pseudoelasticity for SMAs at finite strains. Formulation and implementation -- Chapter 33. Macro-meso models for joint submitted to pyrotechnic shock -- Chapter 34. On dynamics and large strain analysis of shells -- Chapter 35. Finite beam elements for rotating piezoelectric fiber composite structures -- Chapter 36. Thermo-elasto-plastic finite element modeling of an Otto four-stroke engine piston for consecutive load cycles -- Chapter 37. Displacement and fatigue effects of a void under a cement concrete runway -- Chapter 38. Application of graded finite elements for asphalt pavement analysis -- Chapter 39. A reanalysis technique for structures under white noise excitation.
Chapter 40. A spectrally formulated finite element for analysis of wave propagation in layered composite media -- Chapter 41. Micromechanical nonlocal damage modeling -- Chapter 42. Large-scale finite element analyses of intersecting tunnels using PCs -- Chapter 43. Reliability considerations for 3D-shell elements -- Chapter 44. Prediction of lateral distribution of vehicular live loads on bridge girders by the refined analysis method -- Chapter 45. Numerical and experimental investigation of steel structural component of the new San Francisco-Oakland Bay Bridge -- Chapter 46. Parallel finite element computation of contact-impact problems with large deformations -- Chapter 47. Modeling thermomechanical behaviour of cellular structure made of brittle material -- Chapter 48. A "global" finite element model for the simulation of failure of spot welded assemblies during impact -- Chapter 49. Prediction of lateral impact loads imparted to bridge piers during barge collision events -- Chapter 50. Nonlinear time history analysis for the seismic retrofit of the Richmond-San Rafael Bridge -- Chapter 51. Parallel computation methods for large-scale nonlinear CSM -- Chapter 52. Numerical and experimental investigation of reinforced concrete key structural components of the new San Francisco-Oakland Bay Bridge -- Chapter 53. Discrete analysis of the dynamic behavior of heterogeneous material -- Chapter 54. Gradient elasticity finite element model for the microstructure analysis of asphaltic materials -- Chapter 55. An efficient method for elasto-static analysis of rigid circular footings -- Chapter 56. High order anisotropic finite elements for three-dimensional isotropic hyperelastic continua -- Chapter 57. Expedient FE analysis of concrete masonry walls subjected to blast loads.
Chapter 58. On the theory and numerics of orthotropic elastoplasticity at finite plastic strains -- Chapter 59. Identification of parameters for a rate and temperature-dependent constitutive model -- Chapter 60. A distortion-insensitive four-noded membrane quadrilateral that passes the patch test -- Chapter 61. Computational fatigue crack growth analysis in layered composites -- Chapter 62. Enhancing formability of aluminium alloys by superimposing hydrostatic pressure -- Chapter 63. Smart structures models updating -- Chapter 64. Master/slave algorithm for contact between deformable bodies and axial symmetries - application to 3D metal forging -- Chapter 65. A primal class of FETI methods applied to multiple right-hand side problems and implicit dynamic analysis in structural mechanics -- Chapter 66. Damage mechanics model based on structured deformations -- Chapter 67. Implicit material modeling for temperature-dependent viscoplasticity using multi-layer neural networks -- Chapter 68. Material constant sensitivity boundary integral equation for anisotropic solids -- Chapter 69. Towards an alternative approach to geometrical modelling of shell surfaces using a parametric representation -- Chapter 70. Quantifying uncertainty in predictions using a Bayesian neural network -- Chapter 71. Elastoplastic behavior of two-dimensional solids with mixed-mode cracks -- Chapter 72. Voxel modelling of 3D through-thickness reinforced composite laminates -- Chapter 73. Sheet forming modeling by inverse approach and pseudo inverse approach with damage effects -- Chapter 74. Weighted traction boundary element methods for strength analysis of bi-materials -- Chapter 75. Overview of computational structural mechanics in the Department of Defense -- Chapter 76. On displacement control within the DIRK/MLNA approach in non-linear finite element analysis.
Chapter 77. Seismic retrofit strategy, design, and construction of the San Francisco-Oakland Bay Bridge West Crossing -- Chapter 78. A computational strategy for solving three-dimensional tunnel excavation problems -- Chapter 79. Generalized lateral bending analysis of thin-walled beams with branched cross-sections -- Chapter 80. Micro-macro modeling of inelastic behavior of heterogeneous structures -- Chapter 81. Seismic response analysis of long-span bridges using nonlinear dynamic analysis techniques -- Chapter 82. Nonlinear time history analysis of the Million Dollar Bridge -- Chapter 83. An intelligent finite element method for analysis of geotechnical problems -- Chapter 84. Diffusion in cylindrically layered materials using the thin-layer method -- Chapter 85. A rational framework for damage analyses of concrete shells -- Chapter 86. Transient heat transfer in layered composites with random geometry -- Chapter 87. A primal-dual constraint and order preserving technique for flexible multibody dynamical index-3 systems -- Chapter 88. Assessment of a layerwise theory of hybrid beams for patch load -- Chapter 89. 3D prestressed ring joints subjected to bending loads -- Chapter 90. Direct determination of SIF and coefficients of higher order terms of mixed mode cracks -- Chapter 91. Stress intensity factors and T-stress in functionally graded materials: a unified approach using the interaction integral method -- Chapter 92. An anisotropic finite elastic-plastic model for fiber-matrix materials -- Chapter 93. Locking-free piezoelectric MITC shell elements -- Chapter 94. Acceleration of 3D crack growth simulations by the compression of BEM matrices via multipole methods -- Chapter 95. Computational models using Trefftz functions -- Chapter 96. Spring-back simulation based on characterization of sheet metals under reverse plastic strains.
Chapter 97. On classical shell theories, degenerated and solid shell concepts and layered models: comparison and overview.
Abstract:
Bringing together the world's leading researchers and practitioners of computational mechanics, these new volumes meet and build on the eight key challenges for research and development in computational mechanics. Researchers have recently identified eight critical research tasks facing the field of computational mechanics. These tasks have come about because it appears possible to reach a new level of mathematical modelling and numerical solution that will lead to a much deeper understanding of nature and to great improvements in engineering design. The eight tasks are: The automatic solution of mathematical models Effective numerical schemes for fluid flows The development of an effective mesh-free numerical solution method The development of numerical procedures for multiphysics problems The development of numerical procedures for multiscale problems The modelling of uncertainties The analysis of complete life cycles of systems Education - teaching sound engineering and scientific judgement Readers of Computational Fluid and Solid Mechanics 2003 will be able to apply the combined experience of many of the world's leading researchers to their own research needs. Those in academic environments will gain a better insight into the needs and constraints of the industries they are involved with; those in industry will gain a competitive advantage by gaining insight into the cutting edge research being carried out by colleagues in academia. Features Bridges the gap between academic researchers and practitioners in industry Outlines the eight main challenges facing Research and Design in Computational mechanics and offers new insights into the shifting the research agenda Provides a vision of how strong, basic and exciting education at university can be harmonized with life-long learning to obtain maximum value from the new powerful tools of analysis.
Local Note:
Electronic reproduction. Ann Arbor, Michigan : ProQuest Ebook Central, 2017. Available via World Wide Web. Access may be limited to ProQuest Ebook Central affiliated libraries.
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