Materialelære

This book comprehensively describes the operating principles and theoretical foundations of solar chimneys. It covers current research results, including numerical analysis and mathematical models based on different assumptions. Complying with the application of renewable energy in sustainable buildings, solar chimney has received extensive attention as an indispensable part natural ventilation. This book is a guide to the application of solar chimneys from single zones to multi zones, and it provides a reference source of application for construction practitioners and engineering decision-makers. The design basis and the related basic principles of fluid mechanics and natural ventilation design strategies introduced in this book will also be beneficial to college students.

This book presents a comprehensive collection of reviews and experimental research findings in the realm of composite materials. It explores manufacturing technologies and applications, as well as recent breakthroughs in nanomaterial-based composites, polymer-based composites, titanium matrix composites (TMCs), conducting polymers, natural polymers, graphene polymers, graphene composites, and organosulfur polymeric composites, alongside reinforced aluminum matrix composites. The mechanical and tribological aspects take center stage, with a focus on aluminum alloy composites as a superior alternative to traditional gear materials. The book also addresses cutting-edge composite materials developed for drug removal via adsorption techniques, radiation shielding, and their use as shielding absorbers for ionizing radiation. Furthermore, the significance of electrical contact materials and their performance is explored. The book unveils fabrication methods, sample preparation techniques, properties, and various applications of these remarkable composites. Topics range from additive manufacturing to solid-phase extraction and solid-phase microextraction utilizing diverse composites as adsorbents. Additionally, the inverse vulcanization process, a novel technique involving the copolymerization of elemental sulfur with different monomers based on their resource origins, is discussed. Technologies such as powder metallurgy (PM), mechanical alloying (MA), self-propagating high-temperature synthesis (SHS), and rapid solidification processing (RSP) are described. The book further delves into the preparation techniques of zeolite using both conventional and advanced methods, along with the synthesis of various zeolite-based composites, particularly their application in environmental remediation. The book culminates with a summary of analysis and modeling techniques used in composite materials, including those employed in ballistic applications.

This new edition collects diverse protocols compiled by experts from different areas of research as well as by biotech researchers developing novel technologies in the area of immunohistochemistry (IHC). After a few chapters to help orient novices entering the biomedical arena, the book includes methods chapters covering multiplex IHC including fluorescence and chromogenic techniques, combination of IHC with In Situ Hybridization (ISH), wavelet transform approach for organelle tracking, transcription factors in human stem cells, differentiation of mesenchymal stem cells, 3D imaging, phenotyping of glial cells in the human brain, tissue fixation, permeabilization, and cryo-preservation, as well as other topics. Written for the highly successful Methods in Molecular Biology series, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step and readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and up-to-date, Signal Transduction Immunohistochemistry: Methods and Protocols, Third Edition aims to arm novices and experts with vital protocols they can use either as-is or tailor them for specific experimental needs.

Nanofluids: Preparation, Applications and Simulation Methods provides a comprehensive review of recent advances in this important research field. Different approaches for preparing some remarkable families of nanofluids such as aluminum oxide-based nanofluids, CuO/Cu-based nanofluids, carbon nanotubes/graphene-based nanofluids, ZnO-based nanofluids, Fe3O4 based nanofluids, and SiO2 based nanofluids are discussed in detail , along with their current and potential applications. Different approaches for numerical, semi-analytical, and analytical simulations are also discussed, including the Lattice Boltzmann method, as well as advanced analytical techniques such as the Differential Transform Method, the Homotopy Analysis Method, and Optimal Homotopy Analysis. The book will be a valuable reference resource for academic and industrial researchers, materials scientists and engineers, nanotechnologists, and chemists working in the development of nanomaterials and nanofluids for heat transfer in energy and engineering applications.

Polymer Nanocomposites: Interface Engineering of Carbon Nanotubes, Advanced Properties and Recent Applications presents detailed information on various approaches for the interface engineering of CNTs and their resultant properties when incorporated in the polymer matrix. The book covers the fundamentals, as well as up-to-date techniques for predicting the properties of surface engineering. Core shell structures are also covered, along with the functionalization and modification of CNTs and their relationships with the polymer matrix in tailoring engineering properties. The book also discusses the influence of surface treatments on various resultant properties and applications. This book will be a valuable reference resource showcasing the current state-of-the-art on interface engineering of CNTs for production of industrial components.

Construction Materials and Their Properties for Fire Resistance and Insulation covers the properties of novel types of concrete and other more conventional building materials in fire scenarios. The volume also stands out as an invaluable reference resource for its relevance to varied audiences both in academia and industry, spanning materials science, civil and structural engineering, and fire safety engineering. Ensuring buildings are fire safe starts at the very beginning of planning new builds or renovations. Hence, it's essential, in fact, that the right materials are chosen not only according to their load-bearing capabilities but also their susceptibility to decay and fire resistance.

Electrochemical Energy Storage Technologies Beyond Li-ion Batteries: Fundamentals, Materials, Devices focuses on an overview of the current research directions to enable the commercial translation of electrochemical energy storage technologies. The principles of energy storage mechanisms and device design considerations are introduced, along with advances in candidate materials and their path to commercialization and industrialization. Electrochemical energy storage technologies reviewed include rocking chair batteries, metal-air batteries, redox flow batteries, fuel cells, and supercapacitors. This book is suitable for materials scientists and chemists in academia and industry. It may also be of interest to physicists and energy scientists and practitioners.

Upconversion Nanocrystals for Sustainable Technology provides an overview of the current research directions in upconverting nanocrystals and their role in the development of sustainable technologies. This book focuses on the development of low-cost, nontoxic, and energy-efficient upconverting nanocrystals for a wide range of applications. It reviews size control synthesis techniques of nanostructured materials in different dimensions, size-dependent properties, and the relationship between material properties and performance. This book discusses the use of upconversion materials for lasers, display, lighting, energy, and biomedical applications-with a focus on the use of these materials to develop more sustainable technologies. This book is suitable for new entrants in academia and R&D with a scientific background in materials science and engineering, chemistry, and chemical engineering.

High-Temperature Phase Change Materials for Thermal Energy Storage covers the fundamentals, thermal characteristics, measurement, design, and applications of high-temperature phase change materials (PCMs) for thermal energy storage, supported by examples and numerical modeling. The differences between low-temperature and high-temperature PCMs are examined with respect to thermophysical properties, phase change properties, and melting/solidification processes, with detailed coverage of how to alter or shorten the phase transition temperature range between melting and solidification, providing routes for the utilization of PCMs for specific high-temperature applications. The book also addresses key challenges, such as the design of PCM containers, phase transition temperature with little deviation, high latent heat capacity, thermal conductivity, viscosity, efficiency, ecocompatibility, and cost. This book is a valuable resource for researchers, advanced students, and scientists across the areas of energy storage, power generation, energy engineering, thermodynamics, materials science, renewable energy, energy management, mechanical engineering, and chemical engineering as well as engineers, research and development professionals, and other industry personnel with an interest in thermal energy storage design and materials.

Advanced Structural Textile Composites Forming: Characterization, Modeling, and Simulation comprehensively describes the influence of fiber/fabric architectures and properties on composites forming, along with their deformability and structural optimization, covering the latest advances in the composites forming field. Part one reviews textile reinforcement architectures and discusses the forming behaviors of important 2D and 3D fabrics. Part two discusses numerical models to conduct simulation analysis of different structural composites forming at mesoscopic and macroscopic scales, in particular, 3D preforms with through-the-thickness yarns. Part three looks at the latest developments in the relationship between forming and other steps in composite manufacturing, such as resin injection, and automated fiber placement (AFP) and the effects on certain mechanical properties, such as structural damage and impact resistance. The book will be an essential reference for academic researchers, industrial engineers and materials scientists working with the manufacture and design of fiber-reinforced composite materials.

Non-halogenated Flame-Retardant Technology for Epoxy Resins, Thermosets and Composites provides a comprehensive and up-to-date review of the latest advances and technological developments in the field. Chapters cover important flame-retardant systems based on phosphorus, nitrogen, silicon, and boron as well as novel flame retardant epoxy nanocomposites such as graphene, graphitic carbon nitride, MoS2, phosphorene, CNTs, LDHs, and POSS. The use of flame retardant epoxy thermosets and composites in varying applications are also covered, for example, in coatings and paints, in electric and electronic applications, and in aviation and automotive sectors. This comprehensive book will be an essential reference resource for academic and industrial researchers as well as materials scientists and polymer engineers. It will also be ideal for anyone working in the development of flame retardant epoxy-based materials.

Non-destructive Testing of Impact Damage in Fiber-reinforced Polymer Composites: Fundamentals and Applications provides detailed knowledge on the fundamentals and applications of frequently used nondestructive testing (NDT) techniques utilized to assess impact damage in composite structures. This book starts with an introduction to impact damage in composite structures, each subsequent chapter focuses on evaluating damage using specific NDT methods. Chapters 2-4 concentrate on vision-based NDT methods such as visual inspection, digital image correlation, and digital shearography. Following this, Chapters 5-6 delve into ultrasound-based methods, including acoustic emission and phased-array ultrasonic inspection. Radiation-based methods, micro-CT, and thermography are discussed in Chapters 7 and 8, while Chapters 9 and 10 elucidate microwave inspection and electrical impedance tomography. This book is a useful reference for both academia and industry and covers the fundamentals, practical tips, case studies, and applications, as well as current research trends and future possibilities, for each technique.

Thermal Energy Storage in Porous Media: Design and Applications introduces the new design concepts and operation strategies for the core part of heat and mass transfer in thermal energy storage tanks. With a strong focus on design, operation and optimization, the book presents the latest advances in thermal energy storage. Opening with an introduction to latent heat thermal storage, the book then discusses porous media enhanced thermal storage classifications, methods and characterizations. Subsequent topics include energy charging/discharging system design, numerical simulation models and verification, and an analysis of various melting/solidification laws. Finishing with a detailed presentation of applications and containing case studies and real-world examples throughout, this is an essential read for graduate students, researchers and engineers interested in thermal engineering, energy systems, and renewable energy.

Biotechnological Production of Bioactive Phytochemicals of Medicinal Value: A Comprehensive Treatise covers a broad variety of methods for secondary metabolites production (both pharmaceuticals and cosmeceuticals), compiling state-of-the-art material about the current knowledge of in vitro production for a large number of bioactive phytochemicals. Plants are a source of bioactive compounds and specialty chemicals such as ginsenosides; paclitaxel, artemisinin, veregen and nutraceuticals. Biopharmaceuticals are important in human healthcare, and herbal actives are gaining importance all over the world. With natural resources dwindling, in vitro production of secondary compounds on a commercial scale is being more and more required. Besides providing an alternative technology to bypass difficulties, the plant tissue culture (used in a broad sense to include cell, tissue, and organ culture) offers many advantages. In vitro technology also facilitates novel means of conserving the genetic diversity of the germplasm of medicinal plants through cryopreservation, production of novel compounds through biotransformation, somatic hybridization, and selective gene transfer through recombinant DNA technology for enhancing metabolite production.

Synthetic and Mineral Fibers, Their Composites and Applications reviews recent advances and technological developments in this important research field. The book provides an up-to-date record of significant research findings and observations along with an update on current and future potential applications. The book provides vital information on recent advancements, modern processing technologies, manufacturing, and applications and summarizes lifecycle and performance parameters for these types of composites. This book will be a valuable reference resource for academic and industrial researchers and materials scientists and engineers working in the development of polymer composite materials reinforced with synthetic and mineral fibers for applications in aerospace, medical, defense, automotive and construction sectors.

Fundamentals and Biomedical Applications of Chitosan Nanoparticles holistically covers the development and application of chitosan nanoparticles, providing an accessible and interdisciplinary resource for both those new to the field and those who wish to deepen their knowledge. The book begins with an introduction to synthesis methods, fundamental chemistry, characterization, and surface functionalization of chitosan nanoparticles, guiding the reader through each stage of development. A wide range of biomedical applications are explored, from vaccine delivery, tumor targeting, tissue engineering, and wound healing and antimicrobial therapy. This will be a helpful guide for postgraduate students and researchers who are starting out in this field, as well as established researchers in the fields of materials science, nanotechnology, materials chemistry, and bioscience.

Fluorescent Carbon Nanoparticles: Fundamentals and Applications examines the current state-of-the-art of recent progress in fluorescent carbon nanoparticles research. Prime attention is given to synthesis and processing methods, structure, and properties, as well as characterization, surface functionalization, and various applications. In recent years, fluorescent carbon nanoparticles have attracted considerable research interest in several research fields due to their multifunctional properties such as low-cost and simple preparation, easy functionalization, sensitivity, excellent biocompatibility, low toxicity compared with metal and semiconductor nanoparticles, high photo-stability, cytocompatibility and easy dispersibility in aqueous medium. With expert contributions from across the globe the book provides an outstanding reference resource for anyone involved in the field of fluorescent carbon nanoparticles utilized in a broad range of high-performance industrial applications.

Hot Embossing: Theory of Microreplication, Second Edition presents the current state-of-the-art in microreplication, with a focus on hot embossing, nanoimprint, thermoforming, and roll-to-roll replication. Polymer processing, the theory of polymers and the processing of polymers are discussed in detail. The book contains in-depth analysis of processing processes and replication techniques, including mold fabrication. Monitoring, data analysis and reliability of molded parts is also discussed. In this updated edition, new processes are included, such as the process of micro- and nanothermoforming to generate 3D structures and the hot pulling processes to generate hierarchical structures with high aspect ratios. Based on hot pulling, "Nanofur? for Oil-water-separation is a large-scale biomimetic application. Upscaling, especially the seamless roll-to-roll replication, is also explored. The book is designed to cover the entire workflow for a seamless lithographic sleeve. This new edition marks a substantial update of the previous edition, incorporating several new chapters. It is an important resource for materials scientists and engineers working in the areas of micro- and nanofabrication.

Micro and Nanophased Polymeric Composites: Durability Assessment in Engineering Applications provides a comprehensive review of in-service environmental damage and degradation studies of FRP composites in a broad range of different applications. End-users such as academic and industrial researchers and materials scientists and engineers working in the design, analysis, and manufacture of composite material systems will be able to identify the possible superior advantages and limitations of FRP composites in various applications. Particular emphasis is given on the identification of various failure micro-mechanisms leading to unprecedented failure in different harsh and hostile environments. Divided into two distinct parts, the first section focuses on fundamentals, with key chapters on the main constituents of FRP composites, mechanical properties, characterization techniques, and processing and fabrication techniques. Part two focuses on polymer composites under different in-service applications, including the marine and space environment, chemical and corrosive environments, high and low temperature environments, and other critical environments.

This book reports on innovative research in solid and fluid mechanics, and thermal engineering, giving a special emphasis on methods, modeling, and simulation tools for analyzing material behavior and energy systems. It gathers the best papers presented at 15th International Moroccan Congress of Mechanics "Congrès de Mécanique", CMM 2022, held on May 24-27, 2022, in Casablanca, Morocco, and organized by the Moroccan Society of Mechanics (SMSM) and the Faculty of Science Ain Chock of the University of Hassan II, Casablanca, Morocco. With a good balance of theory and practice, the book offers a timely snapshot of current advances in mechanics, and a source of inspiration for future research and international collaborations.

This book showcases the state of the art in the field of electronics, as presented by researchers and engineers at the 54th Annual Meeting of the Italian Electronics Society (SIE), held in Noto (SR), Italy, on September 6¿8, 2023. It covers a broad range of aspects, including: integrated circuits and systems, micro- and nano-electronic devices, microwave electronics, sensors and microsystems, optoelectronics and photonics, power electronics, electronic systems and applications.

This book covers the new field of straintronics, using strain switched nanomagnets for extremely energy-efficient computing, information processing, communication, and signal generation. Based on well-established CMOS technology, traditional electronics have two significant shortcomings: excessive energy dissipation and volatility, which is the inability to retain information after power has been switched off. Straintronics is more energy-efficient and non-volatile (but also more error-prone), allowing it to eclipse traditional electronics in niche areas that are increasingly attracting attention, such as image processing and probabilistic computing, computer vision, machine learning, neuromorphic networks, probabilistic computing, and belief networks. Magnetic Straintronics: An Energy-Efficient Hardware Paradigm for Digital and Analog Information Processing introduces straintronics and the technology's myriad applications for researchers, engineers, and scientists in electrical engineering, physics, and computer engineering.

This textbook, based on the author¿s classroom-tested lecture course, helps graduate students master the advanced plasma theory needed to unlock results at the forefront of current research. It is structured around a two semester course, beginning with kinetic theory and transport processes, while the second semester is devoted to plasma dynamics, including MHD theory, equilibrium, and stability. More advanced problems such as neoclassical theory, stochastization of the magnetic field lines, and edge plasma physics are also considered, and each chapter ends with an illustrative example which demonstrates a concrete application of the theory. The distinctive feature of this book is that, unlike most other advanced plasma science texts, phenomena in both low and high temperature plasma are considered simultaneously so that theory of slightly ionized and fully ionized plasmas is presented holistically. This book will therefore be ideal as a classroom text or self-study guide for a widecohort of graduate students working in different areas like nuclear fusion, gas discharge physics, low temperature plasma applications, astrophysics, and more. It is also a useful reference for more seasoned researchers.

The book combines two interrelated lines of research. One of them is devoted to the development of the theory for solving a certain class of three-dimensional electromagnetic field problems of the three-dimensional electromagnetic field, taking into account eddy currents in a moving conducting magnetizing body. Preference is given to the development of the analytical solution methods of the three-dimensional quasi-stationary problem of field conjugation in the system: ¿a contour of an arbitrary spatial configuration with an alternating current is conducting body with a flat boundary surface¿. The second direction refers to the development of mathematical models for solving applied problems, which involve the use of developed methods for calculating the electromagnetic field and their characteristics. The main application of calculation methods is aimed at solving problems of heat treatment non-ferrous and ferrous metal products using the induction method of heating in a transverse magnetic field. The inverse problems are solved to determine the inductor configuration as flat and spatial current contours for providing the necessary temperature distribution of moving metal strips. To achieve uniform heating of strips across the width using inductors in the form of flat current contours parallel to the strip surface, it is advisable to use combinations of current contours, where the geometric dimensions are determined by the size and electro-physical parameters of the metal strips. A more uniform temperature distribution during high-frequency induction heating is achieved by using inductors in the form of current contours of the required spatial configuration.The book is intended for researchers, postgraduate students, and students specialized in theory and calculations of electromagnetic fields and induction heating installations.

This contributed volume discusses how consumer awareness of textile sustainability can lead to a more sustainable textile supply chain. From the initial purchase of a textile to its care and longevity, consumer behaviors are at the core of consumption associated with the textile industry. Making consumers aware of the environmental impacts of the clothing products they buy help them to choose the best alternative which has the lowers footprints and also enable them to help the entire textile sector to become sustainable. In addition, making them aware of environmental footprints of textile products from cradle to grave, make them aware of how best they can take care of their products during use and disposal phases and how they can help to preserve the planet with their earnest efforts to reduce the environmental impacts in their boundary, i.e. the use and disposal phases.

The aim of this book is to educate the beneficiaries of this technology, because there is so little awareness and understanding of what can be achieved with tuned mass dampers and vibration absorbers and of the relatively small increase in mass and complexity in exchange for the tremendous benefit in vibration reduction. It introduces the feedback approach to help understand why these devices work and are very helpful in modeling the devices on complicated structures. The hardware demonstrators are simple and directly scalable to more complicated structures. Once a reader successfully operates the demonstration hardware, the concepts in the book are directly scalable to implementations on very complex structures like airplanes and rockets. A recipe is provided to 3D print most of the parts as well as easy-to-find brackets and sensors. The whole kit can be assembled in an afternoon. The directions will be similar in detail to a DIY magazine article, providing simple, step-by-step procedures. Via app: download the SN More Media app for free, scan a link with play button and access MP4 directly on your smartphone or tablet.

This textbook has been primarily written for undergraduate and postgraduate engineering students studying the mechanics of solids and structural systems. The content focuses on matrix, finite elements, structural analysis, and computer implementation in a unified and integrated manner. Using classical methods of structural analysis, it discusses matrix and the finite element methods in an easy-to-understand manner. It consists of a large number of diagrams and illustrations for easy understanding of the concepts. All the computer codes are presented in "e;FORTRAN"e; AND "e;C"e;. This textbook is highly useful for the undergraduate and postgraduate engineering students. It also acquaints the practicing engineers about the computer-based techniques used in structural analysis.

Reuse of Plastic Waste in Eco-efficient Concrete presents the latest research findings on the application and use of recycled plastic waste in sustainable construction. Divided over four parts, the book's chapters cover various techniques for processing and separation of plastic wastes; use of recycled plastics as aggregates in modified concrete; as well as lightweight reinforced concrete applications too. There is also an entire section dedicated to asphalt mixtures. It also provides technological solutions on how recycled plastic wastes can be applied in concrete manufacturing. This will be a valuable reference source for academic and industrial researchers who are working with waste materials and the use of recycled plastics in concrete, as well as for civil and structural engineers, polymer production technologists, and concrete manufacturers.

This book presents the selected papers presented at the 2nd World Conference on Byproducts of Palms and their Applications (ByPalma 2021), held as a virtual conference on September 28-30, 2021. The conference focused on the byproducts of palm plantations around the globe and their current and potential applications. It provided an interdisciplinary platform for leading academic scientists, researchers, artisans, entrepreneurs and industry professionals as well as palm growers to exchange recent developments, technologies, innovations, trends, concerns, challenges, and opportunities, related to palm by-products R&D, manufacturing, and crafts. As a reference, it will be of interest to students, scientists, engineers, government officials, and industrial practitioners.