This book discusses the stability of axially moving materials, which are encountered in process industry applications such as papermaking. A special emphasis is given to analytical and semianalytical approaches. As preliminaries, we consider a variety of problems across mechanics involving bifurcations, allowing to introduce the techniques in a simplified setting. In the main part of the book, the fundamentals of the theory of axially moving materials are presented in a systematic manner, including both elastic and viscoelastic material models, and the connection between the beam and panel models. The issues that arise in formulating boundary conditions specifically for axially moving materials are discussed. Some problems involving axially moving isotropic and orthotropic elastic plates are analyzed. Analytical free-vibration solutions for axially moving strings with and without damping are derived. A simple model for fluid--structure interaction of an axially moving panel is presented in detail. This book is addressed to researchers, industrial specialists and students in the fields of theoretical and applied mechanics, and of applied and computational mathematics.
This book discusses the stability of axially moving materials, which are encountered in process industry applications such as papermaking. A special emphasis is given to analytical and semianalytical approaches. As preliminaries, we consider a variety of problems across mechanics involving bifurcations, allowing to introduce the techniques in a simplified setting. In the main part of the book, the fundamentals of the theory of axially moving materials are presented in a systematic manner, including both elastic and viscoelastic material models, and the connection between the beam and panel models. The issues that arise in formulating boundary conditions specifically for axially moving materials are discussed. Some problems involving axially moving isotropic and orthotropic elastic plates are analyzed. Analytical free-vibration solutions for axially moving strings with and without damping are derived. A simple model for fluid--structure interaction of an axially moving panel is presented in detail. This book is addressed to researchers, industrial specialists and students in the fields of theoretical and applied mechanics, and of applied and computational mathematics.
This proceedings volume is devoted to a wide variety of items, both in theory and experiment, of particle physics such as tests of the Standard Model and beyond, physics at the future accelerators, neutrino and astroparticle physics, heavy quark physics, non-perturbative QCD, quantum gravity effects and cosmology. It is important that the papers in this volume reveal the present status and new developments in the above-mentioned items on the eve of a new era that starts with the Large Hadron Collider (LHC).
A complete guide to every aspect of interventional nephrology—an essential text for students, residents, fellows, and clinicians This timely resource examines all relevant aspects of interventional nephrology, from the history of nephrology to the principles governing the latest vascular access techniques. Heavily illustrated with full-color procedural drawings and featuring an easy-to-follow design, the book includes contributions from many leading authorities in the field whose insights combine to form an unprecedented, clinically rigorous survey of interventional nephrology. Interventional Nephrology opens with an instructive look at the origins of hemodialysis access; an overview of the history of interventional nephrology in the U.S. and abroad; and clinically relevant coverage of vascular access outcomes. The high-yield coverage continues with a probing assessment of ethics, public policy, and practice guidelines, illuminating such pivotal topics as industry partnerships and conflicts of interest. The principles that support interventional nephrology techniques are also extensively reviewed, encompassing everything from vascular mapping to peritoneal dialysis catheter removal, while the following section delves into the key surgical aspects of vascular access. Finally, the book provides useful perspectives on how political and policy affairs impact current practice. FEATURES Illustrated with precise full-color drawings and radiographs that highlight both normal and vascular anatomy and clarify the management of vascular access problems Streamlined design and helpful pedagogy, including chapter-opening learning objectives, numerous tables, and concept-clarifying figures Complete overview of the core principles underlying interventional nephrology practice and techniques, covering vascular mapping, monitoring and surveillance of arteriovenous access, venous angioplasty, tunneled catheters, renal ultrasonography, and much more Discussion of vascular access in special populations and the role of pharmacologic agents in preserving vascular access provides evidence-based insights that are pertinent to the everyday practice of interventional nephrology In-depth emphasis on the surgical aspects of vascular access reviews sites, types, and creation of arteriovenous fistulae; secondary arteriovenous fistula; and surgical options for vascular anomalies Forward-thinking coverage of basic and translational science considers future directions in vascular access science; flow dynamics, maturity, and access failure; neointimal hyperplasia; pharmacologic prevention of access dysfunction; and device innovation
Thank you for visiting our website. Would you like to provide feedback on how we could improve your experience?
This site does not use any third party cookies with one exception — it uses cookies from Google to deliver its services and to analyze traffic.Learn More.