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Structural Analysis by Felix Udeyo is intended to teach students the methods and techniques for the analysis of structures. A sound knowledge of structures is a prerequisite for their proper design and ensures the structural integrity of civil engineering infrastructural systems. This textbook is comprised of three parts. The first part consists of an overview of structural analysis and introduces several structural loadings that may be considered during the analysis and subsequent design of structures. The second part covers classic methods of the analysis of determinate structures. The final section discusses classic methods for the analysis of indeterminate structures as well as methods for the analysis and construction of influence lines for indeterminate structures. This textbook is designed for upper-level undergraduates studying civil engineering, construction engineering and management, and architecture. It is also useful for construction professionals seeking licensure in their field of practice.

Structural analysis (Engineering)

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This book focuses on new advances and developments in the topic of vibration control and structural health monitoring. In order to reduce the adverse impact of vibration on structures, vibration control and structure health monitoring have become increasingly important. In this book, frontier research topics in the following areas have been published: theory and computational methods of vibration control, materials and devices for vibration control, tests and applications of vibration mitigation or isolation techniques, structural health monitoring, vibration analysis, and tests and applications in relative fields.

Structural health monitoring. --- Condition monitoring (Structural engineering) --- Monitoring (Structural engineering) --- SHM (Structural health monitoring) --- Structural monitoring --- Nondestructive testing --- Structural analysis (Engineering)

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The book entitled Finite Element Method: Simulation, Numerical Analysis, and Solution Techniques aims to present results of the applicative research performed using FEM in various engineering fields by researchers affiliated to well-known universities. The book has a profound interdisciplinary character and is mainly addressed to researchers, PhD students, graduate and undergraduate students, teachers, engineers, as well as all other readers interested in the engineering applications of FEM. I am confident that readers will find information and challenging topics of high academic and scientific level, which will encourage them to enhance their knowledge in this engineering domain having a continuous expansion. The applications presented in this book cover a broad spectrum of finite element applications starting from mechanical, electrical, or energy production and finishing with the successful simulation of severe meteorological phenomena.

Structural analysis (Engineering) --- Finite element method. --- FEA (Numerical analysis) --- FEM (Numerical analysis) --- Finite element analysis --- Numerical analysis --- Isogeometric analysis --- Architectural engineering --- Engineering, Architectural --- Structural mechanics --- Structures, Theory of --- Structural engineering --- Physical Sciences --- Engineering and Technology --- Computer and Information Science --- Numerical Computing --- Numerical Analysis and Scientific Computing

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This book covers recent advances in the method used in testing, especially in the case of structural integrity that includes fatigue and fracture tests, vibrations test and surface engineering tests that are extremely crucial and widely used by engineers and industries. The book will provide you with information on how to apply the advanced formulation, advanced theory and advanced method of testing that are relevant to all engineering fields: mechanical, electrical, civil, materials and surface engineering. The topics are explained comprehensively, including the reliable test that one should perform in order to effectively investigate the strength and validation of the developed theory or model. I hope that the material is not too theoretical and that the reader finds the case study, formulation, testing method and the analysis helpful for tackling their own engineering and science based studies.

Strains and stresses. --- Architectural engineering --- Engineering, Architectural --- Stresses and strains --- Architecture --- Elastic solids --- Flexure --- Mechanics --- Statics --- Structural analysis (Engineering) --- Deformations (Mechanics) --- Elasticity --- Engineering design --- Graphic statics --- Strength of materials --- Stress waves --- Structural design --- Engineering Mechanics --- Engineering --- Physical Sciences --- Engineering and Technology --- Mechanical Engineering

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"Poro-elastic theory can be widely applied to numerous engineering and scientific problems involving multi-phase media. This book for graduate students and researchers presents the basic mechanics of poro-elastic theory and explores in detail three particular applications: solute and contaminant transport in compacted clay liner systems with consolidation effects; groundwater table fluctuations in coastal aquifers resulting from tidal dynamics; and basic seabed mechanisms under dynamic loading, affecting marine infrastructures. Most existing books in the field focus on the mechanics of porous flow with applications in environmental science. Open Access from http://www.taylorfrancis.com"--

Multiphase flow. --- Porous materials --- Elastic analysis (Engineering) --- Transport theory. --- Ocean bottom. --- Soil-structure interaction. --- Offshore structures --- Fluid dynamics. --- Anchorage. --- Porous media --- Materials --- Porosity --- Anchorage --- Deep-sea moorings --- Flow, Multi-phase --- Flow, Multicomponent --- Flow, Multiphase --- Flow, Polyphase --- Multi-phase flow --- Multicomponent flow --- Polyphase flow --- Fluid dynamics --- Structure-soil interaction --- Soil dynamics --- Structural dynamics --- Bottom of the ocean --- Floor of the ocean --- Ocean floor --- Sea bed --- Sea floor --- Seafloor --- Seabed --- Subsoil of the ocean floor --- Submarine topography --- Boltzmann transport equation --- Transport phenomena --- Mathematical physics --- Particles (Nuclear physics) --- Radiation --- Statistical mechanics --- Analysis, Elastic --- Elastic analysis (Theory of structures) --- Structural analysis (Engineering)