Multiphysics Modelling

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Multiphysics Modeling

Multiphysics Modeling
  • Author : Murat Peksen
  • Publisher : Academic Press
  • Release Date : 2018-06-27
  • Total pages : 282
  • ISBN : 9780128119037
  • File Size : 14,6 Mb
  • Total Download : 518
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Multiphysics Modelling: Materials, Components, and Systems focuses on situations where coupled phenomena involving a combination of thermal, fluid, and solid mechanics occur. Important fundamentals of the various physics that are required in multiphysics modelling are introduced and supported with practical problems. More advanced topics such as creep deformation, fatigue and fracture, multiphase flow or melting in porous media are tackled. 3D interactions in system architectures and energy systems such as batteries, reformer or fuel cells, and modelling of high-performance materials are exemplified. Important multiphysics modelling issues are highlighted. In addition to theory, solutions to problems, such as in linear and non-linear situations are addressed, as well as specific solutions for multiphysics modelling of fluid-solid, solid-solid and fluid-fluid interactions are given. Drawing on teaching experience, industry solutions, and the latest research, this book is the most complete guide to multiphysics modelling available for students and researchers in diverse science and engineering disciplines. Provides a thorough intro to the theory behind multiphysics modeling Covers both linear and non-linear material behaviors Helps to answer practical questions such as when to use 2D or 3D modeling

Multiphysics Modeling: Numerical Methods and Engineering Applications

Multiphysics Modeling: Numerical Methods and Engineering Applications
  • Author : Qun Zhang,Song Cen
  • Publisher : Elsevier
  • Release Date : 2015-12-15
  • Total pages : 440
  • ISBN : 9780124077379
  • File Size : 36,8 Mb
  • Total Download : 543
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Multiphysics Modeling: Numerical Methods and Engineering Applications: Tsinghua University Press Computational Mechanics Series describes the basic principles and methods for multiphysics modeling, covering related areas of physics such as structure mechanics, fluid dynamics, heat transfer, electromagnetic field, and noise. The book provides the latest information on basic numerical methods, also considering coupled problems spanning fluid-solid interaction, thermal-stress coupling, fluid-solid-thermal coupling, electromagnetic solid thermal fluid coupling, and structure-noise coupling. Users will find a comprehensive book that covers background theory, algorithms, key technologies, and applications for each coupling method. Presents a wealth of multiphysics modeling methods, issues, and worked examples in a single volume Provides a go-to resource for coupling and multiphysics problems Covers the multiphysics details not touched upon in broader numerical methods references, including load transfer between physics, element level strong coupling, and interface strong coupling, amongst others Discusses practical applications throughout and tackles real-life multiphysics problems across areas such as automotive, aerospace, and biomedical engineering

Multiphysics Modelling of Fluid-Particulate Systems

Multiphysics Modelling of Fluid-Particulate Systems
  • Author : Hassan Khawaja,Mojtaba Moatamedi
  • Publisher : Academic Press
  • Release Date : 2020-03-14
  • Total pages : 438
  • ISBN : 9780128183465
  • File Size : 34,7 Mb
  • Total Download : 698
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Multiphysics Modelling of Fluid-Particulate Systems provides an explanation of how to model fluid-particulate systems using Eulerian and Lagrangian methods. The computational cost and relative merits of the different methods are compared, with recommendations on where and how to apply them provided. The science underlying the fluid-particulate phenomena involves computational fluid dynamics (for liquids and gases), computational particle dynamics (solids), and mass and heat transfer. In order to simulate these systems, it is essential to model the interactions between phases and the fluids and particles themselves. This book details instructions for several numerical methods of dealing with this complex problem. This book is essential reading for researchers from all backgrounds interested in multiphase flows or fluid-solid modeling, as well as engineers working on related problems in chemical engineering, food science, process engineering, geophysics or metallurgical processing. Provides detailed coverage of Resolved and Unresolved Computational Fluid Dynamics - Discrete Element Method (CFD-DEM), Smoothed Particle Hydrodynamics, and their various attributes Gives an excellent summary of a range of simulation techniques and provides numerical examples Starts with a broad introduction to fluid-particulate systems to help readers from a range of disciplines grasp fundamental principles

Multiphysics Modelling and Simulation for Systems Design and Monitoring

Multiphysics Modelling and Simulation for Systems Design and Monitoring
  • Author : Mohamed Haddar,Mohamed Slim Abbes,Jean-Yves Choley,Taoufik Boukharouba,Tamer Elnady,Andrei Kanaev,Mounir Ben Amar,Fakher Chaari
  • Publisher : Springer
  • Release Date : 2015-01-03
  • Total pages : 555
  • ISBN : 9783319145327
  • File Size : 9,6 Mb
  • Total Download : 743
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This book reports on the state of the art in the field of multiphysics systems. It consists of accurately reviewed contributions to the MMSSD’2014 conference, which was held from December 17 to 19, 2004 in Hammamet, Tunisia. The different chapters, covering new theories, methods and a number of case studies, provide readers with an up-to-date picture of multiphysics modeling and simulation. They highlight the role played by high-performance computing and newly available software in promoting the study of multiphysics coupling effects, and show how these technologies can be practically implemented to bring about significant improvements in the field of design, control and monitoring of machines. In addition to providing a detailed description of the methods and their applications, the book also identifies new research issues, challenges and opportunities, thus providing researchers and practitioners with both technical information to support their daily work and a new source of inspiration for their future research.

Multiphysics Modeling with Finite Element Methods

Multiphysics Modeling with Finite Element Methods
  • Author : William B J Zimmerman
  • Publisher : World Scientific Publishing Company
  • Release Date : 2006-10-25
  • Total pages : 432
  • ISBN : 9789813106734
  • File Size : 47,6 Mb
  • Total Download : 575
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Finite element methods for approximating partial differential equations that arise in science and engineering analysis find widespread application. Numerical analysis tools make the solutions of coupled physics, mechanics, chemistry, and even biology accessible to the novice modeler. Nevertheless, modelers must be aware of the limitations and difficulties in developing numerical models that faithfully represent the system they are modeling. This textbook introduces the intellectual framework for modeling with Comsol Multiphysics, a package which has unique features in representing multiply linked domains with complex geometry, highly coupled and nonlinear equation systems, and arbitrarily complicated boundary, auxiliary, and initial conditions. But with this modeling power comes great opportunities and great perils. Progressively, in the first part of the book the novice modeler develops an understanding of how to build up complicated models piecemeal and test them modularly. The second part of the book introduces advanced analysis techniques. The final part of the book deals with case studies in a broad range of application areas including nonlinear pattern formation, thin film dynamics and heterogeneous catalysis, composite and effective media for heat, mass, conductivity, and dispersion, population balances, tomography, multiphase flow, electrokinetic, microfluidic networks, plasma dynamics, and corrosion chemistry. As a revision of Process Modeling and Simulation with Finite Element Methods, this book uses the very latest features of Comsol Multiphysics. There are new case studies on multiphase flow with phase change, plasma dynamics, electromagnetohydrodynamics, microfluidic mixing, and corrosion. In addition, major improvements to the level set method for multiphase flow to ensure phase conservation is introduced. More information about COMSOL can be found here.

Modelling of Nuclear Reactor Multi-physics

Modelling of Nuclear Reactor Multi-physics
  • Author : Christophe Demazière
  • Publisher : Academic Press
  • Release Date : 2019-11-19
  • Total pages : 368
  • ISBN : 9780128150702
  • File Size : 42,7 Mb
  • Total Download : 133
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Modelling of Nuclear Reactor Multiphysics: From Local Balance Equations to Macroscopic Models in Neutronics and Thermal-Hydraulics is an accessible guide to the advanced methods used to model nuclear reactor systems. The book addresses the frontier discipline of neutronic/thermal-hydraulic modelling of nuclear reactor cores, presenting the main techniques in a generic manner and for practical reactor calculations. The modelling of nuclear reactor systems is one of the most challenging tasks in complex system modelling, due to the many different scales and intertwined physical phenomena involved. The nuclear industry as well as the research institutes and universities heavily rely on the use of complex numerical codes. All the commercial codes are based on using different numerical tools for resolving the various physical fields, and to some extent the different scales, whereas the latest research platforms attempt to adopt a more integrated approach in resolving multiple scales and fields of physics. The book presents the main algorithms used in such codes for neutronic and thermal-hydraulic modelling, providing the details of the underlying methods, together with their assumptions and limitations. Because of the rapidly expanding use of coupled calculations for performing safety analyses, the analysists should be equally knowledgeable in all fields (i.e. neutron transport, fluid dynamics, heat transfer). The first chapter introduces the book’s subject matter and explains how to use its digital resources and interactive features. The following chapter derives the governing equations for neutron transport, fluid transport, and heat transfer, so that readers not familiar with any of these fields can comprehend the book without difficulty. The book thereafter examines the peculiarities of nuclear reactor systems and provides an overview of the relevant modelling strategies. Computational methods for neutron transport, first at the cell and assembly levels, then at the core level, and for one-/two-phase flow transport and heat transfer are treated in depth in respective chapters. The coupling between neutron transport solvers and thermal-hydraulic solvers for coarse mesh macroscopic models is given particular attention in a dedicated chapter. The final chapter summarizes the main techniques presented in the book and their interrelation, then explores beyond state-of-the-art modelling techniques relying on more integrated approaches. Covers neutron transport, fluid dynamics, and heat transfer, and their interdependence, in one reference Analyses the emerging area of multi-physics and multi-scale reactor modelling Contains 71 short videos explaining the key concepts and 77 interactive quizzes allowing the readers to test their understanding

Process Modelling and Simulation with Finite Element Methods

Process Modelling and Simulation with Finite Element Methods
  • Author : William B. J. Zimmerman
  • Publisher : World Scientific
  • Release Date : 2004
  • Total pages : 404
  • ISBN : 9812387935
  • File Size : 51,8 Mb
  • Total Download : 253
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This book presents a systematic description and case studies of chemical engineering modelling and simulation based on the MATLAB/FEMLAB tools, in support of selected topics in undergraduate and postgraduate programmes that require numerical solution of complex balance equations (ordinary differential equations, partial differential equations, nonlinear equations, integro-differential equations). These systems arise naturally in analysis of transport phenomena, process systems, chemical reactions and chemical thermodynamics, and particle rate processes. Templates are given for modelling both state-of-the-art research topics (e.g. microfluidic networks, film drying, multiphase flow, population balance equations) and case studies of commonplace design calculations -- mixed phase reactor design, heat transfer, flowsheet analysis of unit operations, flash distillations, etc. The great strength of this book is that it makes modelling and simulating in the MATLAB/FEMLAB environment approachable to both the novice and the expert modeller.

Multiphysics Simulations in Automotive and Aerospace Applications

Multiphysics Simulations in Automotive and Aerospace Applications
  • Author : Mojtaba Moatamedi,Thurai Rahulan,Hassan Khawaja
  • Publisher : Academic Press
  • Release Date : 2021-07-20
  • Total pages : 307
  • ISBN : 9780128179000
  • File Size : 24,7 Mb
  • Total Download : 821
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Multiphysics Simulations in Automotive and Aerospace Applications provides the fundamentals and latest developments on numerical methods for solving multiphysics problems, including fluid-solid interaction, fluid-structure-thermal coupling, electromagnetic-fluid-solid coupling, vibro and aeroacoustics. Chapters describe the different algorithms and numerical methods used for solving coupled problems using implicit or explicit coupling problems from industrial or academic applications. Given the book’s comprehensive coverage, automotive and aerospace engineers, designers, graduate students and researchers involved in the simulation of practical coupling problems will find the book useful in its approach. Provides the fundamentals of numerical methods, along with comprehensive examples for solving coupled problems Features multi-physics methods and available codes, along with what those codes can do Presents examples from industrial and academic applications

Multiphysics and Multiscale Modeling

Multiphysics and Multiscale Modeling
  • Author : Young W. Kwon
  • Publisher : CRC Press
  • Release Date : 2015-10-05
  • Total pages : 442
  • ISBN : 9781498782524
  • File Size : 13,5 Mb
  • Total Download : 837
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Written to appeal to a wide field of engineers and scientists who work on multiscale and multiphysics analysis, Multiphysics and Multiscale Modeling: Techniques and Applications is dedicated to the many computational techniques and methods used to develop man-made systems as well as understand living systems that exist in nature. Presenting a body

Multiphysics Simulation

Multiphysics Simulation
  • Author : Ercan M. Dede,Jaewook Lee,Tsuyoshi Nomura
  • Publisher : Springer
  • Release Date : 2014-05-28
  • Total pages : 212
  • ISBN : 9781447156406
  • File Size : 41,5 Mb
  • Total Download : 345
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This book highlights a unique combination of numerical tools and strategies for handling the challenges of multiphysics simulation, with a specific focus on electromechanical systems as the target application. Features: introduces the concept of design via simulation, along with the role of multiphysics simulation in today’s engineering environment; discusses the importance of structural optimization techniques in the design and development of electromechanical systems; provides an overview of the physics commonly involved with electromechanical systems for applications such as electronics, magnetic components, RF components, actuators, and motors; reviews the governing equations for the simulation of related multiphysics problems; outlines relevant (topology and parametric size) optimization methods for electromechanical systems; describes in detail several multiphysics simulation and optimization example studies in both two and three dimensions, with sample numerical code.

Advances in Multi-scale Multi-physics Geophysical Modelling and Fluid Transport in Unconventional Oil and Gas Reservoir

Advances in Multi-scale Multi-physics Geophysical Modelling and Fluid Transport in Unconventional Oil and Gas Reservoir
  • Author : Wenhui Song,Zheng Sun,Yu Pang,Yanyong Wang,Jianlin Zhao
  • Publisher : Frontiers Media SA
  • Release Date : 2022-08-12
  • Total pages : 155
  • ISBN : 9782889767755
  • File Size : 17,9 Mb
  • Total Download : 197
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PDF book entitled Advances in Multi-scale Multi-physics Geophysical Modelling and Fluid Transport in Unconventional Oil and Gas Reservoir written by Wenhui Song,Zheng Sun,Yu Pang,Yanyong Wang,Jianlin Zhao and published by Frontiers Media SA which was released on 2022-08-12 with total hardcover pages 155, the book become popular and critical acclaim.

Multiphysics Modeling with Application to Biomedical Engineering

Multiphysics Modeling with Application to Biomedical Engineering
  • Author : Z. Yang
  • Publisher : CRC Press
  • Release Date : 2020-07-23
  • Total pages : 160
  • ISBN : 9781000088878
  • File Size : 39,9 Mb
  • Total Download : 341
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The aim of this book is to introduce the simulation of various physical fields and their applications for biomedical engineering, which will provide a base for researchers in the biomedical field to conduct further investigation. The entire book is classified into three levels. It starts with the first level, which presents the single physical fields including structural analysis, fluid simulation, thermal analysis, and acoustic modeling. Then, the second level consists of various couplings between two physical fields covering structural thermal coupling, porous media, fluid structural interaction (FSI), and acoustic FSI. The third level focuses on multi-coupling that coupling with more than two physical fields in the model. Each part in all levels is organized as the physical feature, finite element implementation, modeling procedure in ANSYS, and the specific applications for biomedical engineering like the FSI study of Abdominal Aortic Aneurysm (AAA), acoustic wave transmission in the ear, and heat generation of the breast tumor. The book should help for the researchers and graduate students conduct numerical simulation of various biomedical coupling problems. It should also provide all readers with a better understanding of various couplings.

Modelling Organs, Tissues, Cells and Devices

Modelling Organs, Tissues, Cells and Devices
  • Author : Socrates Dokos
  • Publisher : Springer
  • Release Date : 2017-03-08
  • Total pages : 502
  • ISBN : 9783642548017
  • File Size : 50,8 Mb
  • Total Download : 382
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This book presents a theoretical and practical overview of computational modeling in bioengineering, focusing on a range of applications including electrical stimulation of neural and cardiac tissue, implantable drug delivery, cancer therapy, biomechanics, cardiovascular dynamics, as well as fluid-structure interaction for modelling of organs, tissues, cells and devices. It covers the basic principles of modeling and simulation with ordinary and partial differential equations using MATLAB and COMSOL Multiphysics numerical software. The target audience primarily comprises postgraduate students and researchers, but the book may also be beneficial for practitioners in the medical device industry.

Multi-physics Modeling of Technological Systems

Multi-physics Modeling of Technological Systems
  • Author : Marc Budinger,Ion Hazyuk,Clément Coïc
  • Publisher : John Wiley & Sons
  • Release Date : 2019-07-09
  • Total pages : 386
  • ISBN : 9781119644347
  • File Size : 19,7 Mb
  • Total Download : 168
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The development of mechatronic and multidomain technological systems requires the dynamic behavior to be simulated before detailed CAD geometry is available. This book presents the fundamental concepts of multiphysics modeling with lumped parameters. The approach adopted in this book, based on examples, is to start from the physical concepts, move on to the models and their numerical implementation, and finish with their analysis. With this practical problem-solving approach, the reader will gain a deep understanding of multiphysics modeling of mechatronic or technological systems – mixing mechanical power transmissions, electrical circuits, heat transfer devices and electromechanical or fluid power actuators. Most of the book's examples are made using Modelica platforms, but they can easily be implemented in other 0D/1D multidomain physical system simulation environments such as Amesim, Simulink/Simscape, VHDL-AMS and so on.

Introduction to Transport Phenomena Modeling

Introduction to Transport Phenomena Modeling
  • Author : Gianpaolo Ruocco
  • Publisher : Springer
  • Release Date : 2018-02-12
  • Total pages : 284
  • ISBN : 9783319668222
  • File Size : 45,8 Mb
  • Total Download : 871
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This textbook offers an introduction to multiple, interdependent transport phenomena as they occur in various fields of physics and technology like transport of momentum, heat, and matter. These phenomena are found in a number of combined processes in the fields of chemical, food, biomedical, and environmental sciences. The book puts a special emphasis on numerical modeling of both purely diffusive mechanisms and macroscopic transport such as fluid dynamics, heat and mass convection. To favor the applicability of the various concepts, they are presented with a simplicity of exposure, and synthesis has been preferred with respect to completeness. The book includes more than 130 graphs and figures, to facilitate the understanding of the various topics. It also presents many modeling examples throughout the text, to control that the learned material is properly understood. There are some typos in the text. You can see the corrections here: http://www.springer.com/cda/content/document/cda_downloaddocument/ErrataCorrige_v0.pdf?SGWID=0-0-45-1679320-p181107156

Multiphysics Modeling Using COMSOL 5 and MATLAB

Multiphysics Modeling Using COMSOL 5 and MATLAB
  • Author : Roger W. Pryor, PhD
  • Publisher : Mercury Learning and Information
  • Release Date : 2021-12-03
  • Total pages : 626
  • ISBN : 9781683925880
  • File Size : 55,7 Mb
  • Total Download : 422
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COMSOL 5 and MATLAB are valuable software modeling tools for engineers and scientists. This updated edition includes five new models and explores a wide range of models in coordinate systems from 0D to 3D, introducing the numerical analysis techniques employed in COMSOL 5.6 and MATLAB software. The text presents electromagnetic, electronic, optical, thermal physics, and biomedical models as examples. It presents the fundamental concepts in the models and the step-by-step instructions needed to build each model. The companion files include all the built models for each step-by-step example presented in the text and the related animations, as specified. The book is designed to introduce modeling to an experienced engineer or can also be used for upper level undergraduate or graduate courses. FEATURES: Focuses on COMSOL 5.x and MATLAB models that demonstrate the use of concepts for later application in engineering, science, medicine, and biophysics for the development of devices and systems Includes companion files with executable copies of each model and related animations Includes detailed discussions of possible modeling errors and results Uses a step-by-step modeling methodology linked to the Fundamental Laws of Physics. The companion files are also available online by emailing the publisher with proof of purchase at [email protected]

Multiphysics Modeling Using COMSOL?

Multiphysics Modeling Using COMSOL?
  • Author : Roger Pryor
  • Publisher : Jones & Bartlett Learning
  • Release Date : 2011
  • Total pages : 872
  • ISBN : 9780763779993
  • File Size : 41,9 Mb
  • Total Download : 793
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Multiphysics Modeling Using COMSOL? rapidly introduces the senior level undergraduate, graduate or professional scientist or engineer to the art and science of computerized modeling for physical systems and devices. It offers a step-by-step modeling methodology through examples that are linked to the Fundamental Laws of Physics through a First Principles Analysis approach. The text explores a breadth of multiphysics models in coordinate systems that range from 1D to 3D and introduces the readers to the numerical analysis modeling techniques employed in the COMSOL? Multiphysics? software. After readers have built and run the examples, they will have a much firmer understanding of the concepts, skills, and benefits acquired from the use of computerized modeling techniques to solve their current technological problems and to explore new areas of application for their particular technological areas of interest.

COMSOL for Engineers

COMSOL for Engineers
  • Author : Mehrzad Tabatabaian
  • Publisher : Mercury Learning and Information
  • Release Date : 2014-03-31
  • Total pages : 254
  • ISBN : 9781938549564
  • File Size : 30,5 Mb
  • Total Download : 339
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COMSOL Multiphysics software is one of the most valuable software modeling tools for engineers and scientists. This book is designed for engineers from the fields of mechanical, electrical, and civil disciplines, and introduces multiphysics modeling techniques and examples accompanied by practical applications using COMSOL 4.x. The book includes a companion CD-ROM with files of over 25 models, images, and code. The main objective is to introduce readers to use COMSOL as an engineering tool for modeling by solving examples that could become a guide for modeling similar or more complicated problems. The objective is to provide a collection of examples and modeling guidelines through which readers can build their own models. Readers are assumed to be familiar with the principles of numerical modeling and the finite element method (FEM). The book takes a flexible-level approach for presenting the materials along with using practical examples. The mathematical fundamentals, engineering principles, and design criteria are presented as integral parts of examples. At the end of each chapter are references that contain more in-depth physics, technical information, and data; these are referred to throughout the book and used in the examples. COMSOL for Engineers could be used to complement another text that provides background training in engineering computations and methods. Examples provided in this book should be considered as "lessons" for which background physics could be explained in more detail. FEATURES Includes a companion CD-ROM with files of over 25 models, images,code Uses progressive approach in terms of examples and models eBook Customers: Companion files are available for downloading with order number/proof of purchase by writing to the publisher at [email protected]

Multiscale Modelling Methods for Applications in Materials Science

Multiscale Modelling Methods for Applications in Materials Science
  • Author : Ivan Kondov,Godehard Sutmann
  • Publisher : Forschungszentrum Jülich
  • Release Date : 2013
  • Total pages : 335
  • ISBN : 9783893368990
  • File Size : 50,7 Mb
  • Total Download : 347
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PDF book entitled Multiscale Modelling Methods for Applications in Materials Science written by Ivan Kondov,Godehard Sutmann and published by Forschungszentrum Jülich which was released on 2013 with total hardcover pages 335, the book become popular and critical acclaim.

Solid State Ionic Devices 10

Solid State Ionic Devices 10
  • Author : E. Traversa,G. Jackson,A. Herring,E. Wachsman,R. Mukundan,P. Vanýsek
  • Publisher : The Electrochemical Society
  • Release Date : 2014
  • Total pages : 270
  • ISBN : 9781607685388
  • File Size : 12,8 Mb
  • Total Download : 407
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PDF book entitled Solid State Ionic Devices 10 written by E. Traversa,G. Jackson,A. Herring,E. Wachsman,R. Mukundan,P. Vanýsek and published by The Electrochemical Society which was released on 2014 with total hardcover pages 270, the book become popular and critical acclaim.

Smart Hydrogel Modelling

Smart Hydrogel Modelling
  • Author : Hua Li
  • Publisher : Springer Science & Business Media
  • Release Date : 2010-01-26
  • Total pages : 359
  • ISBN : 9783642023682
  • File Size : 55,5 Mb
  • Total Download : 833
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The science of mathematical modelling and numerical simulation is generally accepted as the third mode of scienti?c discovery (with the other two modes being experiment and analysis), making this ?eld an integral component of c- ting edge scienti?c and industrial research in most domains. This is especially so in advanced biomaterials such as polymeric hydrogels responsive to biostimuli for a wide range of potential BioMEMS applications, where multiphysics and mul- phase are common requirements. These environmental stimuli-responsive hydrogels are often known as smart hydrogels. In the published studies on the smart or stimu- responsive hydrogels, the literature search clearly indicates that the vast majority are experimental based. In particular, although there are a few published books on the smart hydrogels, none is involved in the modelling of smart hydrogels. For the few published journal papers that conducted mathematical modelling and numerical simulation, results were far from satisfactory, and showed signi?cant d- crepancies when compared with existing experimental data. This has resulted in ad hoc studies of these hydrogel materials mainly conducted by trial and error. This is a very time-consuming and inef?cient process, and certain aspects of fun- mental knowledge are often missed or overlooked, resulting in off-tangent research directions.