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Three subjects of major interest are contained in this textbook: Linear elasticity, mechanics of structures in linear isotropic elasticity, and nonlinear mechanics including computational algorithms. Engineering and mathematics are in a reasonable balance: After the simplest possible, intuitive approach follows the mathematical formulation and analysis. Computational methods occupy a good portion of the book. There are several worked out problems in each chapter and additional exercises at the end of the book. Very often, mathematical expressions are given in more than one notation. The book is intended primarily for students and practising engineers in mechanical and civil engineering. Most of them will be faced with problems of advanced materials and should have a correct understanding of the basic ideas even if they use software to solve them. Students or experts from applied mathematics, materials science and other related fields will also find it useful.
Deformations (Mechanics) --- Elasticity --- Strength of materials --- Nonlinear theories --- Déformations (Mécanique) --- Elasticité --- Résistance des matériaux --- Théories non linéaires --- Strength of materials. --- Nonlinear theories. --- 531 --- 539.37 --- General mechanics. Mechanics of solid and rigid bodies --- Deformation in general. Plane deformation. Three-dimensional deformation. Deformability --- Elasticity. --- Deformations (Mechanics). --- 539.37 Deformation in general. Plane deformation. Three-dimensional deformation. Deformability --- 531 General mechanics. Mechanics of solid and rigid bodies --- Déformations (Mécanique) --- Elasticité --- Résistance des matériaux --- Théories non linéaires --- Architectural engineering --- Engineering, Architectural --- Materials, Strength of --- Resistance of materials --- Building materials --- Flexure --- Mechanics --- Testing --- Graphic statics --- Strains and stresses --- Nonlinear problems --- Nonlinearity (Mathematics) --- Calculus --- Mathematical analysis --- Mathematical physics --- Elastic properties --- Young's modulus --- Matter --- Statics --- Rheology --- Elastic solids --- Structural failures --- Properties --- Mechanics. --- Mechanics, Applied. --- Computational intelligence. --- Solid Mechanics. --- Computational Intelligence. --- Classical Mechanics. --- Intelligence, Computational --- Artificial intelligence --- Soft computing --- Applied mechanics --- Engineering, Mechanical --- Engineering mathematics --- Classical mechanics --- Newtonian mechanics --- Physics --- Dynamics --- Quantum theory
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There have been many excellent books written on the subject of plastic deformation in solids, but rarely can one find a textbook on this subject. “Plasticity Modeling & Computation” is a textbook written specifically for students who want to learn the theoretical, mathematical, and computational aspects of inelastic deformation in solids. It adopts a simple narrative style that is not mathematically overbearing, and has been written to emulate a professor giving a lecture on this subject inside a classroom. Each section is written to provide a balance between the relevant equations and the explanations behind them. Where relevant, sections end with one or more exercises designed to reinforce the understanding of the “lecture.” Color figures enhance the presentation and make the book very pleasant to read. For professors planning to use this textbook for their classes, the contents are sufficient for Parts A and B that can be taught in sequence over a period of two semesters or quarters.
Continuum mechanics. --- Elastoplasticity. --- Numerical analysis. --- Plasticity. --- Mechanical Engineering --- Civil & Environmental Engineering --- Engineering & Applied Sciences --- Hydraulic Engineering --- Civil Engineering --- Deformations (Mechanics) --- Engineering. --- Earth sciences. --- Engineering geology. --- Engineering --- Foundations. --- Hydraulics. --- Geoengineering, Foundations, Hydraulics. --- Continuum Mechanics and Mechanics of Materials. --- Earth Sciences, general. --- Geology. --- Elastic solids --- Mechanics --- Rheology --- Strains and stresses --- Structural failures --- Cohesion --- Elasticity --- Plastics --- Hydraulic engineering. --- Mechanics. --- Mechanics, Applied. --- Geography. --- Solid Mechanics. --- Cosmography --- Earth sciences --- World history --- Applied mechanics --- Engineering, Mechanical --- Engineering mathematics --- Classical mechanics --- Newtonian mechanics --- Physics --- Dynamics --- Quantum theory --- Engineering, Hydraulic --- Fluid mechanics --- Hydraulics --- Shore protection --- Engineering—Geology. --- Geosciences --- Environmental sciences --- Physical sciences --- Flow of water --- Water --- Hydraulic engineering --- Jets --- Architecture --- Building --- Structural engineering --- Underground construction --- Caissons --- Earthwork --- Masonry --- Soil consolidation --- Soil mechanics --- Walls --- Civil engineering --- Geology, Economic --- Flow --- Distribution --- Details --- Geology --- Plasticity --- Plasticité --- Déformations (mécanique) --- Mathematical models. --- Modèles mathématiques. --- Plasticité --- Déformations (mécanique) --- Modèles mathématiques.
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Earthquake and Volcano Deformation is the first textbook to present the mechanical models of earthquake and volcanic processes, emphasizing earth-surface deformations that can be compared with observations from Global Positioning System (GPS) receivers, Interferometric Radar (InSAR), and borehole strain- and tiltmeters. Paul Segall provides the physical and mathematical fundamentals for the models used to interpret deformation measurements near active faults and volcanic centers.Segall highlights analytical methods of continuum mechanics applied to problems of active crustal deformation. Topics include elastic dislocation theory in homogeneous and layered half-spaces, crack models of faults and planar intrusions, elastic fields due to pressurized spherical and ellipsoidal magma chambers, time-dependent deformation resulting from faulting in an elastic layer overlying a viscoelastic half-space and related earthquake cycle models, poroelastic effects due to faulting and magma chamber inflation in a fluid-saturated crust, and the effects of gravity on deformation. He also explains changes in the gravitational field due to faulting and magmatic intrusion, effects of irregular surface topography and earth curvature, and modern concepts in rate- and state-dependent fault friction. This textbook presents sample calculations and compares model predictions against field data from seismic and volcanic settings from around the world.Earthquake and Volcano Deformation requires working knowledge of stress and strain, and advanced calculus. It is appropriate for advanced undergraduates and graduate students in geophysics, geology, and engineering. Professors: A supplementary Instructor's Manual is available for this book. It is restricted to teachers using the text in courses. For information on how to obtain a copy, refer to: http://press.princeton.edu/class_use/solutions.html
Rock deformation --- Strains and stresses --- Volcanism. --- Earthquakes. --- Deformations (Mechanics) --- Mathematical models. --- Volcanism --- Earthquakes --- Volcanisme --- Tremblements de terre --- Déformations (Mécanique) --- Mathematical models --- Deformations (Mechanics). --- Rock deformation - Mathematical models. --- Rock deformation -- Mathematical models. --- Strains and stresses - Mathematical models. --- Strains and stresses -- Mathematical models. --- Volcanicity --- Vulcanism --- Stresses and strains --- Elastic solids --- Mechanics --- Rheology --- Structural failures --- Quakes (Earthquakes) --- Earth movements --- Natural disasters --- Seismology --- Geodynamics --- Volcanology --- Architectural engineering --- Engineering, Architectural --- Architecture --- Flexure --- Statics --- Structural analysis (Engineering) --- Elasticity --- Engineering design --- Graphic statics --- Strength of materials --- Stress waves --- Structural design --- Deformation, Rock --- Geology, Structural --- Rock deformation - Mathematical models --- Strains and stresses - Mathematical models --- 1906 San Francisco earthquake. --- 1980 eruption of Mount St. Helens. --- 1989 Loma Prieta earthquake. --- 1992 Landers earthquake. --- 1999 Hector Mine earthquake. --- Active fault. --- Atmospheric refraction. --- Cauchy stress tensor. --- Compressive stress. --- Continental collision. --- Continuum mechanics. --- Crust (geology). --- Deformation (engineering). --- Deformation (mechanics). --- Deformation monitoring. --- Dike (geology). --- Dislocation. --- Displacement field (mechanics). --- Earthquake prediction. --- Earthquake rupture. --- Earthquake swarm. --- Elasticity (physics). --- Explosive eruption. --- Fault (geology). --- Fault friction. --- Figure of the Earth. --- Fracture mechanics. --- Fracture toughness. --- Fracture zone. --- Fracture. --- Friction. --- Geodetic datum. --- Geologic time scale. --- Geothermal gradient. --- Gravitational acceleration. --- Gravitational potential. --- Gravity Recovery and Climate Experiment. --- Hawaiian Volcano Observatory. --- Infinitesimal strain theory. --- Intraplate earthquake. --- Lava dome. --- Lava lake. --- Lava. --- Long Valley Caldera. --- Magma chamber. --- Magnetic anomaly. --- Melting point. --- Mount St. Helens. --- Nucleation. --- Orogeny. --- Oscillation. --- Parkfield earthquake. --- Plane stress. --- Plate tectonics. --- Porosity. --- Pressure gradient. --- Radiation stress. --- Resurgent dome. --- Rift zone. --- Rock (geology). --- Rock mechanics. --- San Andreas Fault. --- Seafloor spreading. --- Seismic gap. --- Seismic hazard. --- Seismic moment. --- Seismic risk. --- Seismic tomography. --- Seismic wave. --- Seismology. --- Shear modulus. --- Shear stress. --- Shear zone. --- Shearing (physics). --- Shield volcano. --- Strain energy. --- Strain rate. --- Stratovolcano. --- Stress concentration. --- Stress functions. --- Stress intensity factor. --- Subduction. --- Subsidence. --- Surface energy. --- Surface gravity. --- Surface stress. --- Tectonophysics. --- Tension (physics). --- Thermal expansion. --- Thrust fault. --- Traction (engineering). --- Transform fault. --- Types of volcanic eruptions. --- Vibration. --- Viscoelasticity. --- Volcanic hazards. --- Volcanic pipe. --- Volcano. --- Wavenumber. --- Yield (engineering).
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L'analyse des structures et milieux continus, discipline fondamentale pour l'ingénieur, intervient tant dans la conception d'un ouvrage que dans son calcul détaillé. Faisant suite au volume 1, Statique appliquée, la Mécanique des structures, matière riche et féconde, conduit au dimensionnementdes éléments structuraux. Pour construire, l'ingénieur doit posséder une connaissance aiguë despropriétés mécaniques des matériaux, du jeu des contraintes internes, de la déformation de la matière, de la sécurité et des dangers attachés à certaines sollicitations. Ces notions sont présentées dans ce livre sur la base des structures en barres, poutres et câbles avant tout, en se limitant à l'essentiel et au concret. Assorti de nombreux exercices, ce livre s'adresse aux étudiants du premier cycle universitaire ainsi qu'aux ingénieurs praticiens. Il constitue le deuxième volet d'une série d'ouvrages consacrés à l'analyse des structures et mileux continus.
Structural analysis (Engineering) --- Strength of materials --- Deformations (Mechanics) --- Continuum mechanics --- Constructions, Théorie des --- Résistance des matériaux --- Déformations (Mécanique) --- Milieux continus, Mécanique des --- Génie mécanique --- Mechanical engineering --- Résistance mécanique --- Strength --- Propriété mécanique --- Mechanical properties --- Matériau de construction --- Construction materials --- Élasticité --- Elasticity --- Propriété rhéologique --- Rheological properties --- Constructions, Théorie des --- Résistance des matériaux --- Déformations (Mécanique) --- Milieux continus, Mécanique des --- Déformations (mécanique) --- Mechanics, Applied --- Mécanique appliquée --- Ventilation --- Commande, Théorie de la. --- Monograph --- Civil engineering --- Génie civil --- #KVIV:BB --- Building construction --- Building components --- Dimensions. --- Dimensions --- Stability --- Building, Iron and steel --- Construction metallique --- Fluid flow --- Hydraulic engineering --- Hydrodynamique --- Hydrodynamics --- Fluid mechanics --- Concrete --- Construction --- Écologie des forêts. --- Constructions --- Bois --- Assemblages (construction) --- Foresterie --- Construction en bois --- Stabilité. --- Détérioration. --- Aspect économique --- Propriétés mécaniques. --- Conception et construction --- Normes. --- Rivers --- canals --- Measurement --- Mécanique des milieux continus --- Méthode des éléments finis --- Charges permanentes --- Théorie des constructions --- Structure --- Mécanique --- Construction métallique --- Dimensionnement --- Ecoulement non permanent --- Hydraulique --- Construction métallique --- Building, Wooden. --- Building --- Details. --- Détails --- Construction en béton --- Structures (construction) --- Hysdraulic structures --- Ouvrages hydrauliques --- Technologie fluviale. --- Assemblage --- Bois d'oeuvre --- Forêt --- Matériau --- Pont --- Structure en bois --- Technologie --- Acier --- Aluminium --- Assemblage, technique --- Béton --- Element de construction --- Construction en béton --- Béton architectonique --- Béton armé --- Béton précontraint --- Colonne --- Processus de conception --- Dalle --- Détail de construction --- Fondations --- Mur --- Pathologie de la construction --- Aspect économique --- Propriétés mécaniques. --- Prestressed concrete. --- Reinforced concrete. --- Finite element method --- Dead loads (Mechanics) --- Architectural engineering --- Engineering, Architectural --- Structural mechanics --- Structures, Theory of --- Structural engineering --- Loading, Static --- Static loads --- Loads (Mechanics) --- Materials, Strength of --- Resistance of materials --- Building materials --- Flexure --- Mechanics --- Testing --- Graphic statics --- Strains and stresses --- FEA (Numerical analysis) --- FEM (Numerical analysis) --- Finite element analysis --- Numerical analysis --- Isogeometric analysis --- Mechanics of continua --- Mechanics, Analytic --- Field theory (Physics) --- Génie civil. --- 69 --- 69 Bouwbedrijf. Bouwmaterialen. Praktijk en procedures in de bouwnijverheid --- Bouwbedrijf. Bouwmaterialen. Praktijk en procedures in de bouwnijverheid --- 69 Building (construction) trade. Building materials. Building practice and procedure --- Building (construction) trade. Building materials. Building practice and procedure --- Écologie des forêts. --- Stabilité --- Détérioration. --- Écoulement permanent --- Fluides, mécanique des --- Beams --- Structure métallique --- Structural design --- Dimensionnement (ingénierie) --- Calcul
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