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Deformation and Fracture Behaviour of Polymers (Engineering Materials)

This book gives an overview of recent advances in the fracture mechanics of polymers, morphology property correlations, hybrid methods for polymer testing and polymer diagnostics, and biocompatible materials and medical prostheses, as well as application examples and limits.

Deformation and Fracture Mechanics of Engineering Materials

Deformation and Fracture of Solid-State Materials: Field Theoretical Approach and Engineering Applications

This volume introduces a comprehensive theory of deformation and fracture to engineers and applied scientists. Here “comprehensive” means that the theory can describe all stages of deformation from elastic to plastic and plastic to fracturing stage on the same basis (equations). The comprehensive approach is possible because the theory is based on a fundamental physical principle called the local symmetry, or gauge invariance, as opposed to phenomenology.Professor Yoshida explains the gist of local symmetry (gauge invariance) intuitively so that engineers and applied physicists can digest it easily, rather than describing physical or mathematical details of the principle. The author also describes applications of the theory to practical engineering, such as nondestructive testing in particular, with the use of an optical interferometric technique called ESPI (Electronic Speckle-Pattern Interferometry).The book is not a manual of applications. Instead, it provides information on how to apply physical concepts to engineering applications.

Deformation Compatibility Control for Engineering Structures: Methods and Applications

This book presents essential methods of deformation compatibility control, and explicitly addresses the implied conditions on the methods’ deformation compatibility. Consequently, these conditions can be considered in engineering structure design, while the conditions on stable equilibrium can be taken into account in the design method. Thus, the designed deformation and the actual deformation of the respective structure are approximately identical, guaranteeing both the flexibility of the construction material in force transmission and the equilibrium of force in the structure.Though equilibrium theory in engineering structures has been extensively studied, there has been comparatively little research on compatibility. In the limited researches available, the topics are primarily the theories and assumptions on the deformation compatibility, while few systematic works focus on the mechanical theoretical principles and methods of deformation compatibility control. As such, the flexibility of the construction material in force transmission and the stable equilibrium of the structure as a whole cannot be guaranteed based on these research results.Successfully addressing this important gap in the literature, the book is intended for researchers and postgraduates in engineering mechanics, civil engineering and related areas.

Deformation Models: Tracking, Animation and Applications (Lecture Notes in Computational Vision and Biomechanics #7)

The computational modelling of deformations has been actively studied for the last thirty years. This is mainly due to its large range of applications that include computer animation, medical imaging, shape estimation, face deformation as well as other parts of the human body, and object tracking. In addition, these advances have been supported by the evolution of computer processing capabilities, enabling realism in a more sophisticated way. This book encompasses relevant works of expert researchers in the field of deformation models and their applications. The book is divided into two main parts. The first part presents recent object deformation techniques from the point of view of computer graphics and computer animation. The second part of this book presents six works that study deformations from a computer vision point of view with a common characteristic: deformations are applied in real world applications. The primary audience for this work are researchers from different multidisciplinary fields, such as those related with Computer Graphics, Computer Vision, Computer Imaging, Biomedicine, Bioengineering, Mathematics, Physics, Medical Imaging and Medicine.

Deformation Processes in TRIP/TWIP Steels: In-Situ Characterization Techniques (Springer Series in Materials Science #295)

This book demonstrates the potential of novel in-situ experiments, performed on microscopic and macroscopic length scales, for investigating localized deformation processes in metallic materials, particularly their kinetics and the associated evolution of local strain fields. It features a broad methodological portfolio, spanning optical and electron microscopy, digital image correlation, infrared theromgraphy and acoustic emission testing, and particularly focuses on identifying the localized microscopic deformation processes in high-strength/high-ductility CrMnNi TRIP/TWIP (TRansformation Induced Plasticity/TWinning Induced Plasticity) steels. Presenting state-of-the art methodology applied to topical and pertinent problems in materials engineering, this book is a valuable resource for researchers and graduate students working in the field of plasticity and deformation of structural materials.

Deformation und Bruchverhalten von Kunststoffen (VDI-Buch)

Deformations of Mathematical Structures II: Hurwitz-Type Structures and Applications to Surface Physics. Selected Papers from the Seminar on Deformations, Łódź-Malinka, 1988/92

Deformations of Spacetime Symmetries: Gravity, Group-Valued Momenta, and Non-Commutative Fields (Lecture Notes in Physics #986)

This monograph provides an introduction to deformations of Poincaré symmetries focusing on models with a Lie group momentum space and associated non-commutative space-times. The emphasis is put on the emergence of such structures from quantum gravity, their mathematical features described in terms of Hopf algebras and applications to particle kinematics and field theory. Part I of this work focuses on the link between gravity and deformed symmetries in the case of 2+1 and 3+1 space-time dimensions. Part II is devoted to the description of classical particles with group valued momenta, their phase spaces and kinematics. The last part of these notes provides an introduction to the basic features of classical and quantum field theory on κ-Minkowski space-time, the prototypical example of non-commutative space-time exhibiting deformed Poincaré symmetry. The text, being the first providing a detailed overview of these topics, is primarily intended for researchers and graduate students interested in non-commutative field theories and quantum gravity phenomenology.

Deformed Spacetime: Geometrizing Interactions in Four and Five Dimensions (Fundamental Theories of Physics #157)

This volume provides a detailed discussion of the mathematical aspects and physical applications of a new geometrical structure of space-time, based on a generalization ("deformation") of the usual Minkowski space, as supposed to be endowed with a metric whose coefficients depend on the energy. This new five-dimensional scheme (Deformed Relativity in Five Dimensions, DR5) represents a true generalization of the usual Kaluza-Klein (KK) formalism.

Defrosting Ancient Microbes: Emerging Genomes in a Warmer World

Ice is melting around the world and glaciers are disappearing. Water, which has been solid for thousands and even millions of years, is being released into streams, rivers, lakes and oceans. Embedded in this new fluid water, and now being released, are ancient microbes whose effects on today's organisms and ecosystems is unknown and unpredictable. These long sleeping microbes are becoming physiologically active and may accelerate global climate change. This book explores the emergence of these microbes. The implications for terrestrial life and the life that might exist elsewhere in the universe are explored. Key Selling Points: Explores the role of long frozen ancient microbes will have when released due to global warming Describes how ice preserves microbes and microbial genomes for thousands or millions of years Reviews work done on permafrost microbiology Identifies potential health hazards and environmental risks Examines implications for the search for extraterrestrial life.

Defrosting Ancient Microbes: Emerging Genomes in a Warmer World

Ice is melting around the world and glaciers are disappearing. Water, which has been solid for thousands and even millions of years, is being released into streams, rivers, lakes and oceans. Embedded in this new fluid water, and now being released, are ancient microbes whose effects on today's organisms and ecosystems is unknown and unpredictable. These long sleeping microbes are becoming physiologically active and may accelerate global climate change. This book explores the emergence of these microbes. The implications for terrestrial life and the life that might exist elsewhere in the universe are explored. Key Selling Points: Explores the role of long frozen ancient microbes will have when released due to global warming Describes how ice preserves microbes and microbial genomes for thousands or millions of years Reviews work done on permafrost microbiology Identifies potential health hazards and environmental risks Examines implications for the search for extraterrestrial life.

Degeneracy Graphs and Simplex Cycling (Lecture Notes in Economics and Mathematical Systems #357)

Degenerate Diffusion Operators Arising in Population Biology (AM-185)

This book provides the mathematical foundations for the analysis of a class of degenerate elliptic operators defined on manifolds with corners, which arise in a variety of applications such as population genetics, mathematical finance, and economics. The results discussed in this book prove the uniqueness of the solution to the Martingale problem and therefore the existence of the associated Markov process. Charles Epstein and Rafe Mazzeo use an "integral kernel method" to develop mathematical foundations for the study of such degenerate elliptic operators and the stochastic processes they define. The precise nature of the degeneracies of the principal symbol for these operators leads to solutions of the parabolic and elliptic problems that display novel regularity properties. Dually, the adjoint operator allows for rather dramatic singularities, such as measures supported on high codimensional strata of the boundary. Epstein and Mazzeo establish the uniqueness, existence, and sharp regularity properties for solutions to the homogeneous and inhomogeneous heat equations, as well as a complete analysis of the resolvent operator acting on Hölder spaces. They show that the semigroups defined by these operators have holomorphic extensions to the right half-plane. Epstein and Mazzeo also demonstrate precise asymptotic results for the long-time behavior of solutions to both the forward and backward Kolmogorov equations.

Degenerate Diffusion Operators Arising in Population Biology (AM-185) (PDF)

This book provides the mathematical foundations for the analysis of a class of degenerate elliptic operators defined on manifolds with corners, which arise in a variety of applications such as population genetics, mathematical finance, and economics. The results discussed in this book prove the uniqueness of the solution to the Martingale problem and therefore the existence of the associated Markov process. Charles Epstein and Rafe Mazzeo use an "integral kernel method" to develop mathematical foundations for the study of such degenerate elliptic operators and the stochastic processes they define. The precise nature of the degeneracies of the principal symbol for these operators leads to solutions of the parabolic and elliptic problems that display novel regularity properties. Dually, the adjoint operator allows for rather dramatic singularities, such as measures supported on high codimensional strata of the boundary. Epstein and Mazzeo establish the uniqueness, existence, and sharp regularity properties for solutions to the homogeneous and inhomogeneous heat equations, as well as a complete analysis of the resolvent operator acting on Hölder spaces. They show that the semigroups defined by these operators have holomorphic extensions to the right half-plane. Epstein and Mazzeo also demonstrate precise asymptotic results for the long-time behavior of solutions to both the forward and backward Kolmogorov equations.

Degenerate Elliptic Equations (Mathematics and Its Applications #258)

Degeneration and Regeneration in Neurons of the Cerebellum (Advances in Anatomy, Embryology and Cell Biology #53/6)

Degenerative Diseases of the Retina: Proceedings Of The Sixth International Symposium Held In Jerusalem, Israel, November 4-9, 1994

In 1984, we organized a two-day symposium on retinal degenerations as part of the biennial meeting of the VI International Society for Eye Research, held in Alicante, Spain. The success of this first meeting led to the second held, two years later in Sendai, Japan, organized as a satellite of the VII ISER. We were fortunate that these meetings began at a time of vigorous research activity in the area of retinal degenerations, thanks to the financial support of the Retinitis Pigmentosa Foundation and the strong encouragement of its scientific director, Dr. Alan Laties. Significant advances were made so that every two years scientists were eager to meet to share their findings. The programs included presentations by both basic and clinical researchers with ample time for informal discussions in a relaxed atmos­ phere. Many investigators met for the first time at these symposia and a number of fruitful collaborations were established. This book contains the proceedings of the VI International Symposium on Retinal Degenerations held November 6-10, 1994, in Jerusalem. As with the other meetings, some new areas were covered. One session was devoted to apoptosis, an important process involved in cell death in inherited retinal degenerations. Another session was on invertebrate photoreceptors, where numerous mutations have now been identified that lead to altered function or degeneration of the retina. All participants were invited to submit chapters and most complied. We thank them for their contributions.

Degenerative Disorders of the Brain

Covering a wide range of diverse age-related disorders, Degenerative Disorders of the Brain addresses disabilities that occur or have their roots in the later stages of life. The book brings together an internationally recognised group of contributors to discuss frontostriatal, fronto-cerebellar and other major brain systems and structures which control and direct normal behaviour, and which can fail during the aging process, as well as addressing behavioural, clinical, pathophysiological and technical aspects. Discussing the latest clinical and behavioural findings of disorders which are largely, though not necessarily entirely, age related, including Alzheimer’s disease and other dementias, Parkinson’s disease and related disorders, and Huntington’s disease, the book covers information vital to the understanding, diagnosis, and management of degenerative disorders of the brain. It also considers the role of epigenetics, neural plasticity, and environmental enrichment in neurodegenerative disorders alongside the role of ground-breaking intervention methods, including transcranial magnetic stimulation and deep brain stimulation. Degenerative Disorders of the Brain will be of great interest to, and use for, clinicians, researchers, students, lecturers, and affected individuals and their relatives.

Degenerative Disorders of the Brain

Covering a wide range of diverse age-related disorders, Degenerative Disorders of the Brain addresses disabilities that occur or have their roots in the later stages of life. The book brings together an internationally recognised group of contributors to discuss frontostriatal, fronto-cerebellar and other major brain systems and structures which control and direct normal behaviour, and which can fail during the aging process, as well as addressing behavioural, clinical, pathophysiological and technical aspects. Discussing the latest clinical and behavioural findings of disorders which are largely, though not necessarily entirely, age related, including Alzheimer’s disease and other dementias, Parkinson’s disease and related disorders, and Huntington’s disease, the book covers information vital to the understanding, diagnosis, and management of degenerative disorders of the brain. It also considers the role of epigenetics, neural plasticity, and environmental enrichment in neurodegenerative disorders alongside the role of ground-breaking intervention methods, including transcranial magnetic stimulation and deep brain stimulation. Degenerative Disorders of the Brain will be of great interest to, and use for, clinicians, researchers, students, lecturers, and affected individuals and their relatives.

Degenerative Gefäßerkrankungen: Angiographische Diagnostik und radiologische Interventionen

Degradable Aliphatic Polyesters (Advances in Polymer Science #157)

A renewed interest in aliphatic polyesters has resulted in developing materials important in the biomedical and ecological fields. Mainly materials such as PLA and PCL homopolymers have so far been used in most applications. There are many other monomers which can be used. Different molecular structures give a wider range of physical properties as well as the possibility of regulating the degradation rate. By using different types of initiators and catalysts, ring-opening polymerization of lactones and lactides provides macromolecules with advanced molecular architectures. In the future, new degradable polymers should be able to participate in the metabolism of nature. Some examples of novel polymers with inherent environmentally favorable properties such as renewability and degradability and a series of interesting monomers found in the metabolisms and cycles of nature are given.

Degradable Polymers: Principles and Applications

The emphasis in degradable polymers has changed since the first edition of this book. Biomedical and agricultural applications remain important topics of scientific and commercial interest in the second edition. However, an increased emphasis on composting as a means of recovering value from wastes has led to a new impetus to understand how plastics degrade in the environment and the implication of this for international standards. Polymers based on renewable resources are also a major topic in this edition but the debate continues about their long-term sustainability and ecological advantages over degradable man-made polymers. Degradable Polymers will be of interest not only to academic and industrial scientists working on packaging, agricultural and medical applications of plastics but also to students of environmental science and legislators concerned with the effects of man-made materials in the environment.

Degradation of Implant Materials

This book reviews the current understanding of the mechanical, chemical and biological processes that are responsible for the degradation of a variety of implant materials. All 18 chapters will be written by internationally renowned experts to address both fundamental and practical aspects of research into the field. Different failure mechanisms such as corrosion, fatigue, and wear will be reviewed, together with experimental techniques for monitoring them, either in vitro or in vivo. Procedures for implant retrieval and analysis will be presented. A variety of biomaterials (stainless steels, titanium and its alloys, nitinol, magnesium alloys, polyethylene, biodegradable polymers, silicone gel, hydrogels, calcium phosphates) and medical devices (orthopedic and dental implants, stents, heart valves, breast implants) will be analyzed in detail. The book will serve as a broad reference source for graduate students and researchers studying biomedicine, corrosion, surface science, and electrochemistry.

Degradation Phenomena on Polymeric Biomaterials

Tradi tionally, the International lTV - Conferences on Biomate­ rials are focussing on problems in Biomedical Engineering, problems, which are still unsolved, of main interest, and which are of interdisciplinary character. In 1983, the Division of Biomedical Engineering of the Institute of Textile Technology and Chemical Engineering, Denkendorf, started wi th a conference about the use of polyurethanes in biomedicine. Three years later,. in 1986, progress in development and use of polyurethanes was selected as conference topic. It had to be realized that degradation problems were still dominating the discussions. The main discussion topics were: What are the causes for the degradation? How can one prevent them? What are the degradation products, and do they affect the human body? How can one simu­ late the degradation? How can one accelerate the in vitro tests and how can the results predict the in vivo behaviour of the material? How do in vitro tests correlate with animal tests and the behaviour in the human body? At the third conference in 1989, the speakers focused on the use of textiles in medicine. Again the problem of degradation was discussed intensively and demonstrated by the failure of textile implants, the degradation of aramide polymers or the degradation of resorbable suture materials. The examples make clear, that degradation may be a desired or undesired property of an implant.