Long, Y.- Q. et al.
Advanced Finite Element Method in Structural Engineering
Springer-Verlag 2009.7
706 pp.(H)
ISBN 3-642-00315-X
26,200円
Contents
1.Introduction -The Finite Element Method in Development/ 2.Sub-Region Variational Principles.- Variational Principles with Arbitrary Parameters/ 3.Theory of the Generalized Conforming Element/ 4.Thin Plate Generalized Conforming Elements I - Summary/ 5.Thin Plate Generalized Conforming Elements II - The Side-Point Version Conforming and the SemiLoof Schemes/ 6.Thin Plate Generalized Conforming Elements III - The Perimeter-Point Version Conforming and the Least -Squares Schemes/ 7.Thick Plate Generalized Conforming Elements/ 8.Generalized Conforming Element for the Analysis of Laminated Composite Plates/ 9.Generalized Conforming Element for the Analysis of Piezoelectric Laminated Composite Plates/ 10.Generalized Conforming Membrane and Shell Elements/ 11.Sub-Region Mixed Finite Element Method I - Fundamental Theory and Calculation of Stress Intensity Factor/ 12.Sub-Region Mixed Finite Element Method II - V-Notch Problems/ 13.Analytical Trial Function Method I - Membrane and Plate Bending Elements/ 14.Analytical Trial Function Method II - Singular Elements with Crack and V-Notch/ 15.Quadrilateral Area Coordinates I - Theory and Formulae/ 16.Quadrilateral Area Coordinates II - New Tool for Constructing Quadrilateral Elements/ 17.Spline Element Method I - Analysis of Tall Building Structures/ 18.Spline Element Method II - Analysis of Plate and Shell Structures/ 19.Conclusion Remark/ Index/
* Advanced Finite Element Method in Structural Engineering systematically introduces the research work on the Finite Element Method (FEM), which was completed by Prof. Yu-qiu Long and his research group in the past 25 years. Seven original theoretical achievements - for instance, the Generalized Conforming Element method, to name one - and their applications in the fields of structural engineering and computational mechanics are discussed in detail. The book also shows the new strategies for avoiding five difficulties that exist in traditional FEM (shear-locking problem of thick plate elements; sensitivity problem to mesh distortion; non-convergence problem of non-conforming elements; accuracy loss problem of stress solutions by displacement-based elements; stress singular point problem) by utilizing foregoing achievements. *
Sozen, M. A. & Ichinose, T.
Understanding Structures
An Introduction to Structural Analysis
CRC Press 2008.7
368 pp.(H)
ISBN 1-4200-6861-X
8,400円
Contents
1.Trusses/ 2.Moments and Deflections in Cantilever Beams/ 3.Moments and Deflections in Simply-Supported Beams/ 4.Bending and Shear Stresses/ 5.Frames/ 6.Buckling/ Index/
* Before structural mechanics became the common language of structural engineers, buildings were built based on observed behavior, with every new solution incurring high levels of risk. Today, the pendulum has swung in the other direction. The web of structural mechanics is so finely woven that it hides the role of experience in design, again leading to high levels of risk. Understanding Structures brings the art and science of structures into the environment of a computer game.The book imparts a basic understanding of how buildings and bridges resist gravity, wind, and earthquake loads. *
W&riggers, P. & &Carsten
Mixed Finite Element Technologies
Springer-Verlag 2009.5
206 pp.(H)
ISBN 3-211-99092-5
19,500円
Contents
1.Lectures on Adaptive Mixed Finite Element Methods/ 2.Fast Solvers for Mixed Finite Element Methods/ 3.Numerical Simulation of Charge Transport in Semiconductor Devices Using Mixed Finite Elements/ 4. Numerical Simulation of Thermal Oxidation Process in Semiconductor Devices Using Mixed-Hybrid Finite Elements/ 5.Mixed Finite-Element-Methods/ 6.Stability of Some Finite Element Methods for Finite Elasticity Problems/ Index/
* Mixed finite element methods are a tool to solve complex engineering problems of different nature. This subject is treated in the volume from the engineering and the mathematical point. Different applications are considered which depict the value of mixed formulations in engineering on one side. On the other side the mathematical background is provided including proofs of convergence and stability of these methods and adequate solvers for mixed problems are discussed. This broad spectrum yields an indepth treatment of mixed methods from different perspectives. *
Mazars, J. & Millard, A. ed.
Dynamic Behavior of Concrete and Seismic Engineering
Wiley-ISTE 2009.4
384 pp.(H)
ISBN 1-84821-071-X
17,400円
Contents
* While the static behavior of concrete has been the subject of numerous works, the same cannot be said for the dynamic behavior.
* This book sets out to remedy this situation: it begins by presenting the most frequently used experimental techniques in the study of the dynamic behavior of concrete, then continues by examining seismicity and seismic behavior, soil behavior, models of concrete structures subject to seismic activity, seismic calculation methods of structures, and paraseismic engineering. *
Spillers, W. R. & MacBain, K. M.
Structural Optimization
Springer-Verlag 2009.6
315 pp.(H) + CD-ROM
ISBN 0-387-95864-9
21,400円
Contents
1.Introduction/ 2.Some tools of optimization/ 3.Sequential linear programming and the incremental equations of structures/ 4.Optimality criteria methods/ 5.Some basic optimization problems/ 6.Beams and plates, the work of Rozvany/ 7.Some problems of dynamic structural optimization/ 8.Multicriteria optimization/ 9.Practical matters: the work of Farkas and Jarmai/ 10.On-going work/ Index/ *
Pearce, C. & Hunt, E. ed.
Optimization
Structure and Applications
(最適化:構造と応用)
Springer-Verlag 2009.8
434 pp.(H)
ISBN 0-387-98095-4
18,000円
Contents
Part I: Optimization: Structure: 1.On the nondifferentiability of cone-monotone functions in Banach spaces/ 2.Duality and a Farkas lemma for integer programs/ 3.Some nonlinear Lagrange and penalty functions for problems with a single constraint/ 4.Convergence of truncates in l1 optimal feedback control/ 5.Asymptotical stability of optimal paths in nonconvex problems/ 6.Pontryagin principle with a PDE: a unified approach/ 7.A turnpike property for discrete-time control systems in metric spaces/ 8.Mond-Weir Duality/ 9.Computing the fundamental matrix of an M/G/1-type Markov chain/ 10.A comparison of probabilistic and invariant subspace methods for the block M/G/1 Markov chain/ 11.Interpolating maps, the modulus map and Hadamard's inequality/ Part II: Optimization: Applications: 12.Estimating the size of correcting codes using extremal graph problems/ 13.New perspectives on optimal transforms of random vectors/ 14.Optimal capacity assignment in general queueing networks/ 15.Analysis of a simple control policy for stormwater management in two connected dams/ 16.Optimal design of linear consecutive-k-out-of-n systems/ 17.The (k+1)-th component of linear consecutive-k-out-of-n systems/ 18.Optimizing properties of polypropylene and elastomer compounds containing wood flour/ 19.Constrained spanning, Steiner trees and the triangle inequality/ 20.Parallel line search/ 21.Alternative Mathematical Programming Models: A Case for a Coal Blending Decision Process/ Index/ *
Alawadhi, E. M.
Finite Element Simulations Using ANSYS
ANSYSを使った有限要素シミュレーション
CRC Press 2009.7
416 pp.(H)
ISBN 1-4398-0160-6
12,600円
Contents
1.Introduction/ 2.Trusses/ 3.Solid Mechanics & Vibration/ 4.Heat Transfer/ 5.Fluid Mechanics/ 6.Multi-Physics/ 7.Meshing Guide/ Index/
* ANSYS is extensively used in the design cycle by industry leaders in the U.S. and around the world and is available in computer labs in most universities. This volume focuses on the use of ANSYS in solving practical engineering problems.
* This book provides students and practicing engineers with the fundamental knowledge of numerical simulation using ANSYS. It treats each physical phenomenon independently in a way that enables readers to pick out single subjects or related chapters and study them as a self-contained unit. The last chapter is devoted to multi-physics analyses and problems. Additionally, the book contains a number of complete tutorials on using ANSYS for real, practical problems. *
167-62 登録日 09.09.01
