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Strains and stresses --- 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
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We hope that among these chapters you will find a topic which will raise your interest and engage you to further investigate a problem and build on the presented work. This book could serve either as a textbook or as a practical guide. It includes a wide variety of concepts in FVM, result of the efforts of scientists from all over the world. However, just to help you, all book chapters are systemized in three general groups: New techniques and algorithms in FVM; Solution of particular problems through FVM and Application of FVM in medicine and engineering. This book is for everyone who wants to grow, to improve and to investigate.
Engineering design. --- Finite volume method. --- Numerical analysis --- Design, Engineering --- Engineering --- Industrial design --- Strains and stresses --- Design --- Computer modelling & simulation
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engineering design --- mechanical engineering --- aerospace design --- product design --- vehicle design --- civil design --- Building design --- Engineering --- Conception technique --- Engineering design. --- Design, Engineering --- Industrial design --- Strains and stresses
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In the science of physics, elasticity is the ability of a deformable body (e.g., steel, aluminum, rubber, wood, crystals, etc.) to resist a distorting effect and to return to its original size and shape when that influence or force is removed. Solid bodies will deform when satisfying forces are applied to them. Elasticity solution of materials will be grouped in forms of linear and nonlinear elasticity formulations. The main subject of this book is engineering elasticity and consists of five chapters in two main sections. These two main sections are ""General Theorems in Elasticity"" and ""Engineering Applications in Theory of Elasticity."" The first chapter of the first section belongs to the editor and is entitled ""Analytical and Numerical Approaches in Engineering Elasticity."" The second chapter in the first section is entitled ""A General Overview of Stress-Strain Analysis for the Elasticity Equations"" by P. Kumar, M. Mahanty, and A. Chattopadhyay. The first chapter of the second section is entitled ""FEA and Experimental Determination of Applied Elasticity Problems for Fabricating Aspheric Surfaces"" by Dr. D.N. Nguyen. The second chapter is entitled ""Concept of Phase Transition Based on Elastic Systematics"" by Dr. P.S. Nnamchi and Dr. C.S. Obayi. The third chapter is entitled ""Repair Inspection Technique Based on Elastic-Wave Tomography Applied for Deteriorated Concrete Structures"" by Dr. K. Hashimoto, Dr. T. Shiotani, Dr. T. Nishida, and Dr. N. Okude. Finally, this book includes the basic principles of elasticity and related engineering applications about theory and design.
Elasticity. --- Elastic properties --- Young's modulus --- Mathematical physics --- Matter --- Statics --- Rheology --- Strains and stresses --- Strength of materials --- Properties --- Engineering --- Physical Sciences --- Engineering and Technology --- Structural Engineering --- Civil Engineering
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Annotation There is an increasing acknowledgement in the engineering community that the response to this challenge, that is, prevention of catastrophic failure, generally requires a systems approach and necessitates engagement of a large pool of multidisciplinary expertise and the deployment of tools for systems analysis. This multidisciplinary pool includes materials science, structural analysis, manufacturing technologies, quality control and evaluation, mathematics, physics, and probability and reliability. Furthermore, from the scientific point of view, there is also an increasing acknowledgement that addressing the complex engineering problems of today requires the use of concepts and approaches that can account for size and time scaling effects. The Special Issue scope embraces interdisciplinary work aimed at understanding and deploying physics of fatigue and failure techniques, advancing experimental and theoretical failure analysis, modelling of the structural response with respect to both local and global failures, and structural design that accounts for scale and time effects in preventing engineering failures.
Materials --- Fatigue. --- Fatigue of materials --- Fatigue testing --- Fracture mechanics --- Strains and stresses --- Strength of materials --- Structural failures --- Vibration --- Dynamic testing --- Testing
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Structural dynamics --- Models, Molecular. --- Structural dynamics. --- Building dynamics --- Dynamics, Structural --- Structural vibration --- Strains and stresses --- Structural analysis (Engineering) --- Molecular Models --- Model, Molecular --- Molecular Model --- Molecular Conformation --- Molecular Structure --- x-ray fel --- synchrotrons --- pulsed electrons sources --- nuclear dynamics --- diffraction --- Crystal chemistry
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design --- technology --- Industrial design --- Engineering design --- Technology --- Engineering design. --- Industrial design. --- Technology. --- Industrial & Management Engineering --- Applied science --- Arts, Useful --- Science, Applied --- Useful arts --- Science --- Industrial arts --- Material culture --- Design, Industrial --- Mechanical drawing --- New products --- Design --- Design, Engineering --- Strains and stresses
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Engineering design. --- System analysis. --- Dynamics. --- Dynamical systems --- Kinetics --- Mathematics --- Mechanics, Analytic --- Force and energy --- Mechanics --- Physics --- Statics --- Network analysis --- Network science --- Network theory --- Systems analysis --- System theory --- Mathematical optimization --- Design, Engineering --- Engineering --- Industrial design --- Strains and stresses --- Design
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This reprint is concerned with the microstructural characterization and the defect analysis of metallic additively manufactured (AM) materials and parts. Special attention is paid to the determination of residual stress in such parts and to online monitoring techniques devised to predict the appearance of defects. Finally, several non-destructive testing techniques are employed to assess the quality of AM materials and parts.
Residual stresses. --- Thermography. --- Heat --- Infrared photography --- Remote sensing --- Cooling stresses --- Mechanical prestressing --- Metals --- Welding stresses --- Deformations (Mechanics) --- Stored energy of cold work --- Strains and stresses --- Strength of materials --- Residual stresses --- Fatigue --- Heat treatment
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This volume comprises the first collection of papers submitted by the Editorial Board Members (EBMs) of the journal Mathematical and Computational Applications (MCA), as well as outstanding scholars working in the core research fields of MCA. This collection typifies the most insightful and influential original articles regarding key topics in these fields.
Strength of materials. --- Materials science. --- Material science --- Physical sciences --- Architectural engineering --- Engineering, Architectural --- Materials, Strength of --- Resistance of materials --- Building materials --- Flexure --- Mechanics --- Testing --- Elasticity --- Graphic statics --- Strains and stresses
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