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It also covers thermal conductivity models and offers examples of MD simulations. It is designed for students and researchers in the field of MD simulation of metallic glass composites. \u003c\/blockquote\u003e\u003cp\u003e                                                            \u003cstrong\u003eFormat\u003c\/strong\u003e: Paperback \/ softback\u003cbr\u003e                              \u003cstrong\u003eLength\u003c\/strong\u003e: 152 pages\u003cbr\u003e                              \u003cstrong\u003ePublication date\u003c\/strong\u003e: 01 April 2021\u003cbr\u003e                              \u003cstrong\u003ePublisher\u003c\/strong\u003e: Taylor \u0026amp; Francis Ltd\u003cbr\u003e                          \u003c\/p\u003e \u003cp\u003e\u003cbr\u003eMetallic Glass-Based Nanocomposites: Molecular Dynamics Study of Properties offers a comprehensive guide to the use of molecular dynamics (MD) simulation for studying the properties of metallic glass composites. 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The electrode is typically made of a conductive material, such as copper or tungsten, and is connected to a power supply. Sink EDM involves the use of a conductive material that is placed in close proximity to the workpiece and is connected to a power supply. The material is then removed from the workpiece by the plasma.\u003c\/p\u003e\u003ch2\u003eParameters of Micro Electro Discharge Machining (EDM)\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eMicro Electro Discharge Machining (EDM) has several parameters that can be adjusted to achieve the desired results. These parameters include the voltage, current, pulse duration, and frequency. The voltage is the electrical potential that is applied to the workpiece. The current is the amount of electrical current that flows through the workpiece. The pulse duration is the length of time that the electrical discharge lasts. The frequency is the number of times that the electrical discharge occurs per second. The parameters can be adjusted to achieve the desired shape, size, and surface finish of the micro component.\u003c\/p\u003e\u003ch2\u003eComponents of Micro Electro Discharge Machining (EDM) Systems\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eMicro Electro Discharge Machining (EDM) systems consist of several components, including a power supply, a workpiece, an electrode, a dielectric material, and a control system. The power supply provides the electrical power that is required to generate the plasma. The workpiece is the material that is being machined. The electrode is the small electrode that is placed in close proximity to the workpiece. The dielectric material is the material that separates the electrode from the workpiece. The control system controls the electrical discharge and the movement of the electrode.\u003c\/p\u003e\u003ch2\u003eChallenges of Micro Electro Discharge Machining (EDM)\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eMicro Electro Discharge Machining (EDM) has several challenges that must be addressed to achieve successful results. These challenges include electrode wear, material removal rate, surface roughness, and dimensional accuracy. Electrode wear is the loss of material from the electrode due to the high-frequency electrical discharge. Material removal rate is the rate at which material is removed from the workpiece. Surface roughness is the roughness of the surface of the micro component. Dimensional accuracy is the accuracy of the dimensions of the micro component.\u003c\/p\u003e\u003ch2\u003eError Elimination Techniques in Micro Electro Discharge Machining (EDM)\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eError elimination techniques in micro Electro Discharge Machining (EDM) are essential for achieving successful results. These techniques include electrode wear compensation, material removal rate compensation, surface roughness compensation, and dimensional accuracy compensation. Electrode wear compensation involves adjusting the electrode to compensate for the loss of material due to the high-frequency electrical discharge. Material removal rate compensation involves adjusting the electrical discharge to compensate for the rate at which material is removed from the workpiece. Surface roughness compensation involves adjusting the electrical discharge to compensate for the roughness of the surface of the micro component. Dimensional accuracy compensation involves adjusting the electrical discharge to compensate for the accuracy of the dimensions of the micro component.\u003c\/p\u003e\u003ch2\u003eReal-Life Applications of Micro Electro Discharge Machining (EDM)\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eMicro Electro Discharge Machining (EDM) has numerous real-life applications in various industries. Some of the most common applications include the fabrication of micro components for the automotive industry, the aerospace industry, the medical industry, and the electronics industry. In the automotive industry, micro EDM is used to fabricate engine components, such as pistons, valves, and cylinder heads. In the aerospace industry, micro EDM is used to fabricate aircraft components, such as wings, fuselages, and engines. In the medical industry, micro EDM is used to fabricate medical implants, such as prosthetic limbs and dental implants. In the electronics industry, micro EDM is used to fabricate electronic components, such as microchips and circuit boards.\u003c\/p\u003e\u003ch1\u003eConclusion\u003c\/h1\u003e\u003cbr\u003e\u003cp\u003eMicro Electro Discharge Machining (EDM) is a highly advanced technology that has revolutionized the manufacturing of micro components in numerous industries. It is now widely used as a conventional machine tool due to its numerous advantages. This book provides a comprehensive overview of the principles, variants, parameters, components, systems, challenges, and error elimination techniques associated with micro EDM. It also includes real-life applications of micro EDM in different areas, with the most relevant examples to illustrate its effectiveness. 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It includes real-world experience and applicable standards and protocols to protect life and property. \u003c\/blockquote\u003e\u003cp\u003e                                                            \u003cstrong\u003eFormat\u003c\/strong\u003e: Paperback \/ softback\u003cbr\u003e                              \u003cstrong\u003eLength\u003c\/strong\u003e: 488 pages\u003cbr\u003e                              \u003cstrong\u003ePublication date\u003c\/strong\u003e: 31 March 2021\u003cbr\u003e                              \u003cstrong\u003ePublisher\u003c\/strong\u003e: Taylor \u0026amp; Francis Ltd\u003cbr\u003e                          \u003c\/p\u003e \u003cp\u003eForensic engineers are experts in various fields, including structures, fires, and accident reconstruction. Their work requires a broad knowledge of physics, chemistry, biomechanics, and engineering. 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It is suitable for designers, teachers, students, and hobbyists and can be used as a reference book in product design and process development. \u003c\/blockquote\u003e\u003cp\u003e                                                            \u003cstrong\u003eFormat\u003c\/strong\u003e: Paperback \/ softback\u003cbr\u003e                              \u003cstrong\u003eLength\u003c\/strong\u003e: 271 pages\u003cbr\u003e                              \u003cstrong\u003ePublication date\u003c\/strong\u003e: 31 March 2021\u003cbr\u003e                              \u003cstrong\u003ePublisher\u003c\/strong\u003e: Taylor \u0026amp; Francis Ltd\u003cbr\u003e                          \u003c\/p\u003e \u003cp\u003e3D Printing is a revolutionary technology that has transformed the manufacturing industry by enabling the rapid and cost-effective production of prototypes from three-dimensional computer-aided design (CAD) drawings. It offers a comprehensive overview of the general product design and manufacturing process, making it an essential resource for designers, teachers, students, and hobbyists alike. This user-friendly book provides a clear and concise explanation of the 3D printing process, covering all the necessary steps from design to fabrication. It serves as a valuable reference book in product design and process development, helping individuals understand the intricacies of 3D printing and apply it to their projects. 3D Printing is a game-changer in the manufacturing industry, providing a faster and more cost-effective method for building prototypes from three-dimensional computer-aided design (CAD) drawings. It offers a fundamental overview of the general product design and manufacturing process, making it an essential resource for designers, teachers, students, and hobbyists alike. This user-friendly book provides a clear and concise explanation of the 3D printing process, covering all the necessary steps from design to fabrication. It serves as a valuable reference book in product design and process development, helping individuals understand the intricacies of 3D printing and apply it to their projects.\u003cbr\u003e\u003c\/p\u003e\u003ch1\u003e3D Printing: A Faster, More Cost-Effective Method for Building Prototypes from Three-Dimensional Computer-Aided Design (CAD) Drawings\u003c\/h1\u003e\u003cbr\u003e\u003cp\u003e3D Printing is a revolutionary technology that has transformed the manufacturing industry by enabling the rapid and cost-effective production of prototypes from three-dimensional computer-aided design (CAD) drawings. It offers a comprehensive overview of the general product design and manufacturing process, making it an essential resource for designers, teachers, students, and hobbyists alike. This user-friendly book provides a clear and concise explanation of the 3D printing process, covering all the necessary steps from design to fabrication. It serves as a valuable reference book in product design and process development, helping individuals understand the intricacies of 3D printing and apply it to their projects.\u003c\/p\u003e\u003ch2\u003eOverview of the 3D Printing Process\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003e3D Printing is a process that involves the use of a 3D printer to create physical objects from digital designs. The process begins with the creation of a 3D model, which is a digital representation of the object to be printed. This model is then sliced into thin layers, which are then printed one layer at a time using a 3D printer. The printer uses a variety of materials, including plastic, metal, and ceramic, to create the object. The process can be used to create a wide range of objects, including toys, jewelry, and medical devices. \u003c\/p\u003e\u003ch2\u003eBenefits of 3D Printing\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003e3D Printing offers several benefits over traditional manufacturing methods. One of the most significant benefits is the ability to create complex shapes and geometries that would be difficult or impossible to achieve with traditional manufacturing methods. 3D Printing also allows for the production of small batches of products, which can be cost-effective for small businesses and individuals. Additionally, 3D Printing can reduce the amount of waste produced during the manufacturing process, as only the necessary materials are used to create the object. \u003c\/p\u003e\u003ch2\u003eApplications of 3D Printing\u003c\/h2\u003e\u003cp\u003e3D Printing has a wide range of applications in various industries. In the medical industry, 3D Printing is used to create prosthetics, implants, and surgical tools. In the automotive industry, 3D Printing is used to create car parts, such as bumpers and dashboards. In the aerospace industry, 3D Printing is used to create aircraft parts, such as wings and engines. In the consumer goods industry, 3D Printing is used to create toys, jewelry, and household items. \u003c\/p\u003e\u003ch2\u003eConclusion\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003e3D Printing is a revolutionary technology that has transformed the manufacturing industry by enabling the rapid and cost-effective production of prototypes from three-dimensional computer-aided design (CAD) drawings. It offers a comprehensive overview of the general product design and manufacturing process, making it an essential resource for designers, teachers, students, and hobbyists alike. This user-friendly book provides a clear and concise explanation of the 3D printing process, covering all the necessary steps from design to fabrication. It serves as a valuable reference book in product design and process development, helping individuals understand the intricacies of 3D printing and apply it to their projects.\u003c\/p\u003e\u003cp\u003e                            \u003cstrong\u003eWeight\u003c\/strong\u003e: 444g                            \u003cbr\u003e\u003cstrong\u003eDimension\u003c\/strong\u003e: 156 x 234 x 17 (mm)                            \u003cbr\u003e\u003cstrong\u003eISBN-13\u003c\/strong\u003e: 9780367781965                                                      \u003c\/p\u003e","brand":"Rafiq Noorani","offers":[{"title":"Paperback \/ softback","offer_id":44103797965050,"sku":"9780367781965","price":47.59,"currency_code":"GBP","in_stock":true}]},{"product_id":"alloys-and-intermetallic-compounds-from-modeling-to-engineering","title":"Alloys and Intermetallic Compounds: From Modeling to Engineering","description":"\u003cp\u003e\u003c\/p\u003e\u003cblockquote\u003eThe book explores the role of modeling in designing alloys and intermetallic compounds, covering important techniques and applications, emphasizing the correlation between modeling and technological developments. \u003c\/blockquote\u003e\u003cp\u003e                                                            \u003cstrong\u003eFormat\u003c\/strong\u003e: Paperback \/ softback\u003cbr\u003e                              \u003cstrong\u003eLength\u003c\/strong\u003e: 367 pages\u003cbr\u003e                              \u003cstrong\u003ePublication date\u003c\/strong\u003e: 31 March 2021\u003cbr\u003e                              \u003cstrong\u003ePublisher\u003c\/strong\u003e: Taylor \u0026amp; Francis Ltd\u003cbr\u003e                          \u003c\/p\u003e \u003cp\u003e\u003cbr\u003eModeling plays a crucial role in the design of alloys and intermetallic compounds, providing valuable insights into their properties and behavior. This book offers an introduction to the most important and widely used modeling techniques, including CALPHAD and ab-initio methods, and explores the latest developments in their applications. The book emphasizes the correlation between modeling and technological advancements, highlighting topics such as wettability of Ultra High Temperature Ceramics by metals, active brazing of diamonds to metals in cutting tools, surface issues in medicine, novel Fe-based superconductors, metallic glasses, high entropy alloys, and thermoelectric materials.\u003cbr\u003e\u003c\/p\u003e\u003ch1\u003eModeling in Alloy and Intermetallic Compounds Design\u003c\/h1\u003e\u003cbr\u003e\u003cp\u003eThis book focuses on the role of modeling in the design of alloys and intermetallic compounds. It includes an introduction to the most important and most used modeling techniques, such as CALPHAD and ab-initio methods, as well as a section devoted to the latest developments in applications of alloys. The book emphasizes the correlation between modeling and technological developments while discussing topics such as wettability of Ultra High Temperature Ceramics by metals, active brazing of diamonds to metals in cutting tools, surface issues in medicine, novel Fe-based superconductors, metallic glasses, high entropy alloys, and thermoelectric materials.\u003c\/p\u003e\u003ch2\u003eIntroduction to Modeling Techniques\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eModeling techniques are used to predict the properties and behavior of materials. CALPHAD (Calculation of Phase Diagrams) is a widely used technique that combines thermodynamic data with phase diagram calculations to predict the phase stability and phase diagram of materials. Ab-initio methods, on the other hand, are based on quantum mechanics and are used to calculate the electronic structure and properties of materials. These techniques are essential for understanding the behavior of materials at the atomic level and for designing new materials with desired properties.\u003c\/p\u003e\u003ch2\u003eApplications of Modeling Techniques in Alloy and Intermetallic Compounds\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eModeling techniques have been applied to a wide range of alloy and intermetallic compounds. For example, CALPHAD has been used to design new alloys for various applications, such as aerospace, automotive, and electronics. Ab-initio methods have been used to design new superconductors, metallic glasses, and thermoelectric materials. These techniques have also been used to study the wettability of Ultra High Temperature Ceramics by metals, active brazing of diamonds to metals in cutting tools, and surface issues in medicine.\u003c\/p\u003e\u003ch2\u003eCorrelation between Modeling and Technological Developments\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eModeling and technological developments are closely related. Modeling can help to identify new materials with desired properties, while technological developments can help to improve the performance of existing materials. For example, the development of new alloys for aerospace applications has led to increased fuel efficiency and reduced emissions. The development of new superconductors has led to the development of new energy-efficient technologies.\u003c\/p\u003e\u003ch2\u003eConclusion\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eModeling plays a crucial role in the design of alloys and intermetallic compounds. It provides valuable insights into their properties and behavior and can help to identify new materials with desired properties. Modeling techniques such as CALPHAD and ab-initio methods are essential for understanding the behavior of materials at the atomic level and for designing new materials with desired properties. By emphasizing the correlation between modeling and technological developments, this book will help to advance the field of materials science and engineering.\u003c\/p\u003e\u003cp\u003e                            \u003cstrong\u003eWeight\u003c\/strong\u003e: 680g                            \u003cbr\u003e\u003cstrong\u003eDimension\u003c\/strong\u003e: 234 x 156 (mm)                            \u003cbr\u003e\u003cstrong\u003eISBN-13\u003c\/strong\u003e: 9780367782207                                                      \u003c\/p\u003e","brand":"Shulph Ink","offers":[{"title":"Paperback \/ softback","offer_id":44103838335226,"sku":"9780367782207","price":48.54,"currency_code":"GBP","in_stock":true}]},{"product_id":"conductive-polymers-electrical-interactions-in-cell-biology-and-medicine","title":"Conductive Polymers: Electrical Interactions in Cell Biology and Medicine","description":"\u003cp\u003e\u003c\/p\u003e\u003cblockquote\u003e\n\u003cbr\u003eThe book explores conductive polymers' electrical interactions with biological systems, covering chemistry, physics, applications, and limitations, with a focus on cytotoxicity and tissue compatibility. It emphasizes their importance in biomedical engineering and potential medical applications. \u003c\/blockquote\u003e\u003cp\u003e                                                            \u003cstrong\u003eFormat\u003c\/strong\u003e: Paperback \/ softback\u003cbr\u003e                              \u003cstrong\u003eLength\u003c\/strong\u003e: 420 pages\u003cbr\u003e                              \u003cstrong\u003ePublication date\u003c\/strong\u003e: 31 March 2021\u003cbr\u003e                              \u003cstrong\u003ePublisher\u003c\/strong\u003e: Taylor \u0026amp; Francis Ltd\u003cbr\u003e                          \u003c\/p\u003e \u003cp\u003e\u003cbr\u003eThis book is dedicated to the field of conductive polymers, focusing on electrical interactions with biological systems. It provides an overview of the chemistry and physics of conductive polymers, their useful characteristics as well as limitations, and technologies that apply conductive polymers for medical purposes. It addresses cytotoxicity and tissue compatibility of conductive polymers, the basics on electromagnetic fields, and commonly used experimental methods. Readers will also learn how cells are cultured in vitro with conductive polymers, and how conductive polymers and living tissues interact electrically. Throughout the contents, chapter authors emphasize the importance of conductive polymers in biomedical engineering and their potential applications in medicine.\u003cbr\u003e\u003c\/p\u003e\u003ch1\u003eConductive Polymers in Biomedical Engineering\u003c\/h1\u003e\u003cbr\u003e\u003cp\u003eThis book is dedicated to the field of conductive polymers, focusing on electrical interactions with biological systems. It provides an overview of the chemistry and physics of conductive polymers, their useful characteristics as well as limitations, and technologies that apply conductive polymers for medical purposes. It addresses cytotoxicity and tissue compatibility of conductive polymers, the basics on electromagnetic fields, and commonly used experimental methods. Readers will also learn how cells are cultured in vitro with conductive polymers, and how conductive polymers and living tissues interact electrically. Throughout the contents, chapter authors emphasize the importance of conductive polymers in biomedical engineering and their potential applications in medicine.\u003c\/p\u003e\u003ch2\u003eIntroduction\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eConductive polymers have gained significant attention in recent years due to their unique properties and potential applications in various fields, including electronics, energy, and medicine. In the field of biomedical engineering, conductive polymers have been used to develop a wide range of medical devices, such as implants, prosthetics, and biosensors. These devices are designed to interact with the biological system in a safe and effective manner, and conductive polymers play a crucial role in this interaction. \u003c\/p\u003e\u003ch2\u003eChemistry and Physics of Conductive Polymers\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eConductive polymers are organic compounds that contain conjugated double bonds in their backbone. These bonds allow electrons to move freely throughout the polymer, resulting in electrical conductivity. Conductive polymers can be synthesized using a variety of methods, including chemical synthesis, electrochemical synthesis, and polymerization. The chemistry and physics of conductive polymers are complex and diverse, and they have been studied extensively in recent years. \u003c\/p\u003e\u003ch2\u003eUses of Conductive Polymers in Biomedical Engineering\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eConductive polymers have a wide range of uses in biomedical engineering. They can be used as the conducting interface for electrical communications with the biological system, both in vitro and in vivo. In vitro, conductive polymers can be used to study the electrical properties of cells and tissues, and to develop new medical devices. In vivo, conductive polymers can be used to deliver drugs, genes, and other therapeutic agents to the body. \u003c\/p\u003e\u003ch2\u003eCytotoxicity and Tissue Compatibility of Conductive Polymers\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eOne of the major challenges associated with the use of conductive polymers in biomedical engineering is cytotoxicity. Cytotoxicity refers to the ability of a material to cause damage to cells or tissues. Conductive polymers can be cytotoxic, and this can limit their use in medical devices. Tissue compatibility is also important, as conductive polymers must be able to interact with the biological system in a safe and effective manner. \u003c\/p\u003e\u003ch2\u003eElectromagnetic Fields and Conductive Polymers\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eElectromagnetic fields are a fundamental part of the biological system. Conductive polymers can interact with electromagnetic fields, and this can have a significant impact on their behavior. Conductive polymers can be used to create electromagnetic shields, which can protect against electromagnetic radiation. They can also be used to create electromagnetic sensors, which can detect the presence of electromagnetic fields. \u003c\/p\u003e\u003ch2\u003eCommonly Used Experimental Methods\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eThere are a variety of commonly used experimental methods for studying conductive polymers in biomedical engineering. These methods include electrochemical impedance spectroscopy, scanning electron microscopy, and fluorescence microscopy. Electrochemical impedance spectroscopy is used to measure the electrical properties of conductive polymers, while scanning electron microscopy is used to study the morphology of conductive polymers. Fluorescence microscopy is used to study the behavior of cells and tissues in response to conductive polymers. \u003c\/p\u003e\u003ch2\u003eCell Culture in Vitro with Conductive Polymers\u003c\/h2\u003e\u003cp\u003eCell culture in vitro with conductive polymers is a critical step in the development of medical devices. Conductive polymers can be used to create a variety of cell culture substrates, including microfluidic devices, tissue engineering scaffolds, and drug delivery systems. These substrates can be used to study the behavior of cells and tissues in response to conductive polymers, and to develop new medical devices. \u003c\/p\u003e\u003ch2\u003eInteraction of Conductive Polymers with Living Tissues\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eConductive polymers can interact with living tissues in a variety of ways. They can be used to deliver drugs, genes, and other therapeutic agents to the body, and they can also be used to create electrical connections between cells and tissues. Conductive polymers can also be used to create electrical sensors, which can detect the presence of electrical signals in the body. \u003c\/p\u003e\u003ch2\u003eConclusion\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eConductive polymers have gained significant attention in recent years due to their unique properties and potential applications in various fields, including electronics, energy, and medicine. In the field of biomedical engineering, conductive polymers have been used to develop a wide range of medical devices, such as implants, prosthetics, and biosensors. These devices are designed to interact with the biological system in a safe and effective manner, and conductive polymers play a crucial role in this interaction. However, cytotoxicity and tissue compatibility are major challenges associated with the use of conductive polymers in biomedical engineering, and it is important to address these challenges in order to ensure the safe and effective use of these materials in medical devices. \u003c\/p\u003e\u003ch1\u003eConductive Polymers in Biomedical Engineering\u003c\/h1\u003e\u003cbr\u003e\u003cp\u003eThis book is dedicated to the field of conductive polymers, focusing on electrical interactions with biological systems. It provides an overview of the chemistry and physics of conductive polymers, their useful characteristics as well as limitations, and technologies that apply conductive polymers for medical purposes. It addresses cytotoxicity and tissue compatibility of conductive polymers, the basics on electromagnetic fields, and commonly used experimental methods. Readers will also learn how cells are cultured in vitro with conductive polymers, and how conductive polymers and living tissues interact electrically. Throughout the contents, chapter authors emphasize the importance of conductive polymers in biomedical engineering and their potential applications in medicine.\u003c\/p\u003e\u003ch2\u003eIntroduction\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eConductive polymers have gained significant attention in recent years due to their unique properties and potential applications in various fields, including electronics, energy, and medicine. In the field of biomedical engineering, conductive polymers have been used to develop a wide range of medical devices, such as implants, prosthetics, and biosensors. These devices are designed to interact with the biological system in a safe and effective manner, and conductive polymers play a crucial role in this interaction. \u003c\/p\u003e\u003ch2\u003eChemistry and Physics of Conductive Polymers\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eConductive polymers are organic compounds that contain conjugated double bonds in their backbone. These bonds allow electrons to move freely throughout the polymer, resulting in electrical conductivity. Conductive polymers can be synthesized using a variety of methods, including chemical synthesis, electrochemical synthesis, and polymerization. The chemistry and physics of conductive polymers are complex and diverse, and they have been studied extensively in recent years. \u003c\/p\u003e\u003ch2\u003eUses of Conductive Polymers in Biomedical Engineering\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eConductive polymers have a wide range of uses in biomedical engineering. They can be used as the conducting interface for electrical communications with the biological system, both in vitro and in vivo. In vitro, conductive polymers can be used to study the electrical properties of cells and tissues, and to develop new medical devices. In vivo, conductive polymers can be used to deliver drugs, genes, and other therapeutic agents to the body. \u003c\/p\u003e\u003ch2\u003eCytotoxicity and Tissue Compatibility of Conductive Polymers\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eOne of the major challenges associated with the use of conductive polymers in biomedical engineering is cytotoxicity. Cytotoxicity refers to the ability of a material to cause damage to cells or tissues. Conductive polymers can be cytotoxic, and this can limit their use in medical devices. Tissue compatibility is also important, as conductive polymers must be able to interact with the biological system in a safe and effective manner. \u003c\/p\u003e\u003ch2\u003eElectromagnetic Fields and Conductive Polymers\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eElectromagnetic fields are a fundamental part of the biological system. Conductive polymers can interact with electromagnetic fields, and this can have a significant impact on their behavior. Conductive polymers can be used to create electromagnetic shields, which can protect against electromagnetic radiation. They can also be used to create electromagnetic sensors, which can detect the presence of electromagnetic fields. \u003c\/p\u003e\u003ch2\u003eCommonly Used Experimental Methods\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eThere are a variety of commonly used experimental methods for studying conductive polymers in biomedical engineering. These methods include electrochemical impedance spectroscopy, scanning electron microscopy, and fluorescence microscopy. Electrochemical impedance spectroscopy is used to measure the electrical properties of conductive polymers, while scanning electron microscopy is used to study the morphology of conductive polymers. Fluorescence microscopy is used to study the behavior of cells and tissues in response to conductive polymers. \u003c\/p\u003e\u003ch2\u003eCell Culture in Vitro with Conductive Polymers\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eCell culture in vitro with conductive polymers is a critical step in the development of medical devices. Conductive polymers can be used to create a variety of cell culture substrates, including microfluidic devices, tissue engineering scaffolds, and drug delivery systems. These substrates can be used to study the behavior of cells and tissues in response to conductive polymers, and to develop new medical devices. \u003c\/p\u003e\u003ch2\u003eInteraction of Conductive Polymers with Living Tissues\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eConductive polymers can interact with living tissues in a variety of ways. They can be used to deliver drugs, genes, and other therapeutic agents to the body, and they can also be used to create electrical connections between cells and tissues. Conductive polymers can also be used to create electrical sensors, which can detect the presence of electrical signals in the body. \u003c\/p\u003e\u003ch2\u003eConclusion\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eConductive polymers have gained significant attention in recent years due to their unique properties and potential applications in various fields, including electronics, energy, and medicine. In the field of biomedical engineering, conductive polymers have been used to develop a wide range of medical devices, such as implants, prosthetics, and biosensors. These devices are designed to interact with the biological system in a safe and effective manner, and conductive polymers play a crucial role in this interaction. However, cytotoxicity and tissue compatibility are major challenges associated with the use of conductive polymers in biomedical engineering, and it is important to address these challenges in order to ensure the safe and effective use of these materials in medical devices.\u003c\/p\u003e\u003cp\u003e                            \u003cstrong\u003eWeight\u003c\/strong\u003e: 816g                            \u003cbr\u003e\u003cstrong\u003eDimension\u003c\/strong\u003e: 234 x 156 (mm)                            \u003cbr\u003e\u003cstrong\u003eISBN-13\u003c\/strong\u003e: 9780367782214                                                      \u003c\/p\u003e","brand":"Shulph Ink","offers":[{"title":"Paperback \/ softback","offer_id":44104015151354,"sku":"9780367782214","price":48.54,"currency_code":"GBP","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0522\/4297\/2845\/products\/6dd0cbc192b38ed1b02412252748fd25.jpg?v=1620649219"},{"product_id":"mesoporous-materials-for-advanced-energy-storage-and-conversion-technologies","title":"Mesoporous Materials for Advanced Energy Storage and Conversion Technologies","description":"\u003cp\u003e\u003c\/p\u003e\u003cblockquote\u003e\n\u003cbr\u003eMesoporous materials with diverse morphologies, structures, and functionalities have revolutionized energy conversion and storage technologies, making them a promising field for research. This book provides a comprehensive overview of their application in supercapacitors, Li-ion batteries, fuel cells, solar cells, and photocatalysis. \u003c\/blockquote\u003e\u003cp\u003e                                                            \u003cstrong\u003eFormat\u003c\/strong\u003e: Paperback \/ softback\u003cbr\u003e                              \u003cstrong\u003eLength\u003c\/strong\u003e: 336 pages\u003cbr\u003e                              \u003cstrong\u003ePublication date\u003c\/strong\u003e: 31 March 2021\u003cbr\u003e                              \u003cstrong\u003ePublisher\u003c\/strong\u003e: Taylor \u0026amp; Francis Ltd\u003cbr\u003e                          \u003c\/p\u003e \u003cp\u003e\u003cbr\u003eMesoporous materials have gained significant attention in recent years due to their unique properties and potential applications in various fields, including energy conversion and storage technologies. These materials are characterized by their porous structure, which can be tailored to suit specific requirements. The book \"Mesoporous Materials for Energy Conversion and Storage Technologies\" focuses on the rapid progress in the application of mesoporous materials in energy conversion and storage technologies, including supercapacitors, Li-ion batteries, fuel cells, solar cells, and photocatalysis (water splitting).\u003cbr\u003e\u003cbr\u003eMesoporous materials are made up of a network of interconnected pores, which can be of various shapes and sizes. The size and shape of the pores can affect the properties of the material, such as its surface area, pore volume, and pore size distribution. The properties of mesoporous materials can be further modified by doping, acid functionalization, or other chemical treatments.\u003cbr\u003e\u003cbr\u003eOne of the key advantages of mesoporous materials is their high surface area, which allows them to interact with a wide range of molecules and ions. This high surface area can be used to enhance the performance of energy conversion and storage technologies, such as supercapacitors, Li-ion batteries, and fuel cells. For example, supercapacitors can store energy by storing electrical charges on the surface of the material, while Li-ion batteries can store energy by storing lithium ions in the pores of the material.\u003cbr\u003e\u003cbr\u003eMesoporous materials can also be used in solar cells to convert sunlight into electricity. The pores of the material can be used to absorb sunlight, and the electrons can be transferred to the electrodes, which can then be used to generate electricity. Solar cells can be made more efficient by doping the material with metal oxides or other materials that can increase the absorption of sunlight.\u003cbr\u003e\u003cbr\u003ePhotocatalysis is another application of mesoporous materials that has gained significant attention in recent years. Photocatalysis is the process of using light to convert water into hydrogen and oxygen. Mesoporous materials can be used as catalysts in photocatalysis, which can increase the efficiency of the process.\u003cbr\u003e\u003cbr\u003eIn addition to their applications in energy conversion and storage technologies, mesoporous materials have also been used in other fields, such as drug delivery, catalysis, and environmental remediation. For example, mesoporous materials can be used to deliver drugs to specific cells in the body, or to catalyze chemical reactions.\u003cbr\u003e\u003cbr\u003eHowever, there are also some challenges associated with the use of mesoporous materials. One of the main challenges is the stability of the material. Mesoporous materials can be easily damaged by exposure to water, air, or other chemicals, which can affect their performance.\u003cbr\u003e\u003cbr\u003eTo address this challenge, researchers have developed new methods for stabilizing mesoporous materials. For example, researchers have developed methods for coating mesoporous materials with a protective layer, or by using a polymer matrix to stabilize the material.\u003cbr\u003e\u003cbr\u003eAnother challenge associated with the use of mesoporous materials is the cost of production. Mesoporous materials can be expensive to produce, which can limit their use in certain applications.\u003cbr\u003e\u003cbr\u003eTo address this challenge, researchers have developed new methods for producing mesoporous materials at a lower cost. For example, researchers have developed methods for using natural materials, such as clay, to produce mesoporous materials.\u003cbr\u003e\u003cbr\u003eIn conclusion, mesoporous materials have gained significant attention in recent years due to their unique properties and potential applications in various fields, including energy conversion and storage technologies. This book focuses on the rapid progress in the application of mesoporous materials in energy conversion and storage technologies, including supercapacitors, Li-ion batteries, fuel cells, solar cells, and photocatalysis. While there are some challenges associated with the use of mesoporous materials, researchers have developed new methods for stabilizing and producing mesoporous materials at a lower cost, which will help to increase their use in these applications.\u003c\/p\u003e\u003cp\u003e                            \u003cstrong\u003eWeight\u003c\/strong\u003e: 621g                            \u003cbr\u003e\u003cstrong\u003eDimension\u003c\/strong\u003e: 234 x 156 (mm)                            \u003cbr\u003e\u003cstrong\u003eISBN-13\u003c\/strong\u003e: 9780367782238                                                      \u003c\/p\u003e","brand":"Shulph Ink","offers":[{"title":"Paperback \/ softback","offer_id":44103742292218,"sku":"9780367782238","price":48.54,"currency_code":"GBP","in_stock":true}]},{"product_id":"quantum-effects-in-tribology","title":"Quantum Effects in Tribology","description":"\u003cp\u003e\u003c\/p\u003e\u003cblockquote\u003eQuantum Effects in Tribology explores the quantum foundations of materials friction interaction and tribosystems' evolutionary formation, challenging existing models and revealing new regularities of friction. It is intended for professionals and graduate students in tribology and quantum physics. \u003c\/blockquote\u003e\u003cp\u003e                                                            \u003cstrong\u003eFormat\u003c\/strong\u003e: Paperback \/ softback\u003cbr\u003e                              \u003cstrong\u003eLength\u003c\/strong\u003e: 196 pages\u003cbr\u003e                              \u003cstrong\u003ePublication date\u003c\/strong\u003e: 31 March 2021\u003cbr\u003e                              \u003cstrong\u003ePublisher\u003c\/strong\u003e: Taylor \u0026amp; Francis Ltd\u003cbr\u003e                          \u003c\/p\u003e \u003cp\u003e\u003cbr\u003eQuantum Effects in Tribology is a comprehensive exploration of the quantum foundations of materials friction, interaction, and evolutionary formation of tribosystems. It begins by examining the diverse range of friction, wear, and lubrication models and their interconnections, as well as the quantum nature of the measurement process and the wave function reduction caused by measurement. The book adopts the apparatus of second quantization and non-local quantum effects to consider measurement as a process of defining the output parameters of tribosystems. This approach enables a fresh perspective on the evolution of tribosystems and the discovery of previously unknown regularities of friction. While primarily intended for professionals working in the field of tribology, the book will also be valuable for graduate students specializing in the theory of friction and quantum physics.\u003c\/p\u003e\u003cp\u003e                            \u003cstrong\u003eWeight\u003c\/strong\u003e: 363g                            \u003cbr\u003e\u003cstrong\u003eDimension\u003c\/strong\u003e: 234 x 156 (mm)                            \u003cbr\u003e\u003cstrong\u003eISBN-13\u003c\/strong\u003e: 9780367782405                                                      \u003c\/p\u003e","brand":"Dmitry Nikolaevich Lyubimov,Kirill Nikolaevich Dolgopolov","offers":[{"title":"Paperback \/ softback","offer_id":44104871477498,"sku":"9780367782405","price":48.54,"currency_code":"GBP","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0522\/4297\/2845\/products\/3dd6993e678d228f2d71800d56c7cafd.jpg?v=1620649259"},{"product_id":"strength-prediction-of-adhesively-bonded-joints","title":"Strength Prediction of Adhesively-Bonded Joints","description":"\u003cp\u003e\u003c\/p\u003e\u003cblockquote\u003eAdhesively-bonded joints offer advantages over mechanical fasteners in engineering applications, including strength-to-weight ratio, design flexibility, and ease of fabrication. This book provides analytical and numerical methods for designing and analyzing bonded joints. \u003c\/blockquote\u003e\u003cp\u003e                                                            \u003cstrong\u003eFormat\u003c\/strong\u003e: Paperback \/ softback\u003cbr\u003e                              \u003cstrong\u003eLength\u003c\/strong\u003e: 421 pages\u003cbr\u003e                              \u003cstrong\u003ePublication date\u003c\/strong\u003e: 31 March 2021\u003cbr\u003e                              \u003cstrong\u003ePublisher\u003c\/strong\u003e: Taylor \u0026amp; Francis Ltd\u003cbr\u003e                          \u003c\/p\u003e \u003cp\u003e\u003cbr\u003eAdhesively-bonded joints offer numerous advantages over conventional mechanical fasteners, making them a promising alternative in engineering applications. Unlike traditional fasteners, which can cause fiber cutting and stress concentrations, bonded joints are more continuous and offer potential benefits in terms of strength-to-weight ratio, design flexibility, and ease of fabrication. This book provides a comprehensive overview of available analytical and numerical methods for designing and analyzing adhesive joints.\u003cbr\u003e\u003c\/p\u003e\u003ch1\u003eAdhesively-Bonded Joints: An Alternative to Mechanical Fasteners in Engineering Applications\u003c\/h1\u003e\u003cbr\u003e\u003cp\u003eAdhesively-bonded joints have gained significant attention in recent years as an alternative to conventional mechanical fasteners in engineering applications. These joints offer several advantages over mechanical fasteners, including improved structural integrity, reduced weight, and enhanced design flexibility. In this book, we provide an overview of available analytical and numerical methods for designing and analyzing adhesive joints.\u003cbr\u003e\u003c\/p\u003e\u003ch2\u003eAdvantages of Adhesively-Bonded Joints\u003c\/h2\u003e\u003cbr\u003e\u003cul\u003e\n\u003cbr\u003e\u003cli\u003eImproved Structural Integrity: Adhesively-bonded joints are more continuous than mechanical fasteners, which means that they do not introduce stress concentrations or cut fibers. This results in improved structural integrity and reduced risk of failure.\u003cbr\u003e\n\u003c\/li\u003e\n\u003cli\u003eReduced Weight: Adhesively-bonded joints are typically lighter than mechanical fasteners, which can lead to reduced weight and improved fuel efficiency. This is particularly important in transportation and aerospace applications.\u003cbr\u003e\n\u003c\/li\u003e\n\u003cli\u003eEnhanced Design Flexibility: Adhesively-bonded joints offer greater design flexibility than mechanical fasteners. They can be used in a wide range of applications, including aerospace, automotive, and construction.\u003cbr\u003e\n\u003c\/li\u003e\n\u003cli\u003eEase of Fabrication: Adhesively-bonded joints are easier to fabricate than mechanical fasteners. They can be applied in a single step, which reduces the time and cost of production.\u003cbr\u003e\n\u003c\/li\u003e\n\u003cli\u003eEnvironmental Benefits: Adhesively-bonded joints are environmentally friendly. They do not produce any waste or emissions during production, and they can be recycled.\u003cbr\u003e\n\u003c\/li\u003e\n\u003c\/ul\u003e\u003cbr\u003e\u003ch2\u003eAnalytical Methods for Designing Adhesively-Bonded Joints\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eAnalytical methods for designing adhesive joints include the use of finite element analysis (FEA), finite difference analysis (FDA), and analytical models. FEA is a computer-based method that uses finite element models to simulate the behavior of adhesive joints under various loading conditions. FDA is a computer-based method that uses finite difference models to simulate the behavior of adhesive joints under various loading conditions. Analytical models are mathematical models that describe the behavior of adhesive joints.\u003cbr\u003e\u003c\/p\u003e\u003ch2\u003eNumerical Methods for Analyzing Adhesively-Bonded Joints\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eNumerical methods for analyzing adhesive joints include the use of finite element analysis (FEA), finite difference analysis (FDA), and analytical models. FEA is a computer-based method that uses finite element models to simulate the behavior of adhesive joints under various loading conditions. FDA is a computer-based method that uses finite difference models to simulate the behavior of adhesive joints under various loading conditions. Analytical models are mathematical models that describe the behavior of adhesive joints.\u003cbr\u003e\u003c\/p\u003e\u003ch2\u003eApplications of Adhesively-Bonded Joints\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eAdhesively-bonded joints have a wide range of applications in engineering. They are used in transportation, aerospace, automotive, construction, and many other industries. In transportation, adhesive joints are used to connect components such as wheels, axles, and frames. In aerospace, adhesive joints are used to connect components such as wings, fuselages, and engines. In automotive, adhesive joints are used to connect components such as doors, windows, and roofs. In construction, adhesive joints are used to connect components such as walls, floors, and roofs.\u003cbr\u003e\u003c\/p\u003e\u003ch2\u003eConclusion\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eAdhesively-bonded joints offer numerous advantages over conventional mechanical fasteners, including improved structural integrity, reduced weight, enhanced design flexibility, and ease of fabrication. These joints are increasingly receiving attention as an alternative to mechanical joints in engineering applications. This book provides an overview of available analytical and numerical methods for designing and analyzing adhesive joints. By using these methods, engineers can design and analyze adhesive joints that are more effective and efficient, which can lead to improved performance and reduced costs.\u003c\/p\u003e\u003cp\u003e                            \u003cstrong\u003eWeight\u003c\/strong\u003e: 780g                            \u003cbr\u003e\u003cstrong\u003eDimension\u003c\/strong\u003e: 234 x 156 (mm)                            \u003cbr\u003e\u003cstrong\u003eISBN-13\u003c\/strong\u003e: 9780367782412                                                      \u003c\/p\u003e","brand":"Shulph Ink","offers":[{"title":"Paperback \/ softback","offer_id":44105036890362,"sku":"9780367782412","price":48.54,"currency_code":"GBP","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0522\/4297\/2845\/products\/2d9d41f7ae8a2a11db87093885e6a279.jpg?v=1620649263"},{"product_id":"polymer-glasses","title":"Polymer Glasses","description":"\u003cp\u003e\u003c\/p\u003e\u003cblockquote\u003e The book provides a comprehensive overview of molecular level insights into polymer glasses in confined geometries and under deformation, covering commonalities across different types of glass formers and leading to treatments for polymer glasses with first-principle based approaches and molecular level detail. It is valuable for both newcomers to the field and mature active researchers. \u003c\/blockquote\u003e\u003cp\u003e                                                            \u003cstrong\u003eFormat\u003c\/strong\u003e: Paperback \/ softback\u003cbr\u003e                              \u003cstrong\u003eLength\u003c\/strong\u003e: 556 pages\u003cbr\u003e                              \u003cstrong\u003ePublication date\u003c\/strong\u003e: 31 March 2021\u003cbr\u003e                              \u003cstrong\u003ePublisher\u003c\/strong\u003e: Taylor \u0026amp; Francis Ltd\u003cbr\u003e                          \u003c\/p\u003e \u003cp\u003e\u003cbr\u003eThe present book, \"Molecular Level Insights into Polymer Glasses in Confined Geometries and under Deformation,\" is a valuable resource for both newcomers to the field and mature active researchers. It offers a coherent and timely introduction to modern approaches, ideas, results, emerging understanding, and numerous open questions in the fascinating field of polymer glasses, supercooled liquids, and thin films.\u003cbr\u003e\u003cbr\u003ePolymer glasses have become essential in our daily lives, from eyeglass lenses to aquarium tanks, offering advantages over glass in terms of weight, ease of manufacture, and transparency. This book provides a comprehensive overview of molecular level insights into polymer glasses in confined geometries and under deformation.\u003cbr\u003e\u003cbr\u003eThe book begins with an introduction to the field, followed by state-of-the-art investigations. Chapters delve into studies of commonalities across different types of glass formers, including polymers, small molecules, colloids, and granular materials. The authors demonstrate how glass formers are modeled across different systems, leading to treatments for polymer glasses with first-principle-based approaches and molecular level detail.\u003cbr\u003e\u003cbr\u003eReaders across disciplines will benefit from this topical overview, summarizing the key areas of polymer glasses, along with an introduction to the main principles and approaches.\u003cbr\u003e\u003cbr\u003eThe book is organized into five sections: Introduction, State of the Art Investigations, Commonalities across Different Types of Glass Formers, Modeling of Glass Formers, and Treatments for Polymer Glasses. Each section is further divided into chapters, providing a comprehensive and in-depth exploration of the topics covered.\u003cbr\u003e\u003cbr\u003eIn the Introduction, the authors provide a brief history of polymer glasses and their applications. They discuss the challenges associated with studying polymer glasses and the need for molecular level insights.\u003cbr\u003e\u003cbr\u003eThe State of the Art Investigations section includes chapters on the structure, dynamics, and properties of polymer glasses. The authors discuss the various experimental techniques used to study polymer glasses, including X-ray diffraction, neutron scattering, and molecular dynamics simulations. They also highlight recent advances in the field, such as the development of new glass formers and the study of glass formation in confined geometries.\u003cbr\u003e\u003cbr\u003eThe Commonalities across Different Types of Glass Formers section explores the similarities and differences between different types of glass formers. The authors discuss the role of molecular structure, intermolecular interactions, and thermodynamic properties in determining the glass formation behavior of polymers. They also highlight the importance of glass formation in the development of new materials and technologies.\u003cbr\u003e\u003cbr\u003eThe Modeling of Glass Formers section focuses on the development of theoretical models for glass formation. The authors discuss the various models used to describe the glass transition, including the free volume theory, the random first-order transition theory, and the mode-coupling theory. They also discuss the challenges associated with modeling glass formation and the need for more accurate models.\u003cbr\u003e\u003cbr\u003eThe Treatments for Polymer Glasses section discusses the various methods used to improve the properties of polymer glasses. The authors discuss the use of additives, fillers, and nanocomposites to enhance the mechanical, thermal, and optical properties of polymer glasses. They also highlight the importance of understanding the glass formation process in order to develop effective treatments.\u003cbr\u003e\u003cbr\u003eIn conclusion, \"Molecular Level Insights into Polymer Glasses in Confined Geometries and under Deformation\" is a valuable resource for both newcomers to the field and mature active researchers. It provides a coherent and timely introduction to modern approaches, ideas, results, emerging understanding, and numerous open questions in the fascinating field of polymer glasses, supercooled liquids, and thin films. The book is organized into five sections, each of which is further divided into chapters, providing a comprehensive and in-depth exploration of the topics covered. Whether you are a researcher, engineer, or student, this book will provide you with the knowledge and skills you need to advance your understanding of polymer glasses and their applications.\u003c\/p\u003e\u003cp\u003e                            \u003cstrong\u003eWeight\u003c\/strong\u003e: 1057g                            \u003cbr\u003e\u003cstrong\u003eDimension\u003c\/strong\u003e: 254 x 178 (mm)                            \u003cbr\u003e\u003cstrong\u003eISBN-13\u003c\/strong\u003e: 9780367782436                                                      \u003c\/p\u003e","brand":"Shulph Ink","offers":[{"title":"Paperback \/ softback","offer_id":44104832614650,"sku":"9780367782436","price":48.54,"currency_code":"GBP","in_stock":true}]},{"product_id":"two-dimensional-nanostructures-for-energy-related-applications","title":"Two-Dimensional Nanostructures for Energy-Related Applications","description":"\u003cp\u003e\u003c\/p\u003e\u003cblockquote\u003e\n\u003cbr\u003eThe edited book explores the latest advances and development of utilizing two-dimensional nanostructures for energy and its related applications, covering synthesis, processing, property characterization, and utilization in devises. \u003c\/blockquote\u003e\u003cp\u003e                                                            \u003cstrong\u003eFormat\u003c\/strong\u003e: Paperback \/ softback\u003cbr\u003e                              \u003cstrong\u003eLength\u003c\/strong\u003e: 412 pages\u003cbr\u003e                              \u003cstrong\u003ePublication date\u003c\/strong\u003e: 31 March 2021\u003cbr\u003e                              \u003cstrong\u003ePublisher\u003c\/strong\u003e: Taylor \u0026amp; Francis Ltd\u003cbr\u003e                          \u003c\/p\u003e \u003cp\u003e\u003cbr\u003eThis edited book delves into the cutting-edge advancements and developments in the field of utilizing two-dimensional nanostructures for energy and its associated applications. Traditionally, the geometry of these materials is characterized as thin films or coatings. The book encompasses three primary sections, commencing with the synthesis, processing, and properties of two-dimensional nanostructures for active and passive layers, followed by discussions on the characterization of the materials. It culminates with chapters addressing the utilization of these materials in devises for energy and its related applications.\u003c\/p\u003e\u003cp\u003e                            \u003cstrong\u003eWeight\u003c\/strong\u003e: 762g                            \u003cbr\u003e\u003cstrong\u003eDimension\u003c\/strong\u003e: 234 x 156 (mm)                            \u003cbr\u003e\u003cstrong\u003eISBN-13\u003c\/strong\u003e: 9780367782467                                                      \u003c\/p\u003e","brand":"Shulph Ink","offers":[{"title":"Paperback \/ softback","offer_id":44105106260218,"sku":"9780367782467","price":48.54,"currency_code":"GBP","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0522\/4297\/2845\/products\/fd28811056ad4546d9d2fb1c8da95306.jpg?v=1620649286"},{"product_id":"mass-customized-manufacturing-theoretical-concepts-and-practical-approaches","title":"Mass Customized Manufacturing: Theoretical Concepts and Practical Approaches","description":"\u003cp\u003e\u003c\/p\u003e\u003cblockquote\u003e\n\u003cbr\u003eThe book explores mass customization from various perspectives, offering advancements in product design, assembly and supply chain processes, variety-induced complexity models, complexity management, marketing tools, information systems, and sustainability assessment. It aims to disseminate current developments and approaches for further theoretical investigation and practical applications of mass customized manufacturing systems. \u003c\/blockquote\u003e\u003cp\u003e                                                            \u003cstrong\u003eFormat\u003c\/strong\u003e: Paperback \/ softback\u003cbr\u003e                              \u003cstrong\u003eLength\u003c\/strong\u003e: 314 pages\u003cbr\u003e                              \u003cstrong\u003ePublication date\u003c\/strong\u003e: 31 March 2021\u003cbr\u003e                              \u003cstrong\u003ePublisher\u003c\/strong\u003e: Taylor \u0026amp; Francis Ltd\u003cbr\u003e                          \u003c\/p\u003e \u003cp\u003e\u003cbr\u003eMass customization is a manufacturing and marketing strategy that involves designing, manufacturing, and delivering products that are tailored to individual customer requirements. This book brings together original contributions from designers, manufacturers, and customers to explore advancements in product design, assembly and supply chain processes, variety-induced complexity models, complexity management, marketing tools, information systems, and critical success factors of mass customization. It also focuses on the use of product configurators in practice and sustainability assessment for mass customization strategy. The aim is to disseminate current developments and approaches for further theoretical investigation and practical applications of mass customized manufacturing systems.\u003cbr\u003e\u003c\/p\u003e\u003ch1\u003eMass Customization: A Comprehensive Guide for Designers, Manufacturers, and Customers\u003c\/h1\u003e\u003cbr\u003e\u003cp\u003eMass customization is a manufacturing and marketing strategy that involves designing, manufacturing, and delivering products that are tailored to individual customer requirements. This book brings together original contributions from designers, manufacturers, and customers to explore advancements in product design, assembly and supply chain processes, variety-induced complexity models, complexity management, marketing tools, information systems, and critical success factors of mass customization. It also focuses on the use of product configurators in practice and sustainability assessment for mass customization strategy. The aim is to disseminate current developments and approaches for further theoretical investigation and practical applications of mass customized manufacturing systems.\u003c\/p\u003e\u003ch2\u003eProduct Design for Mass Customization\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eProduct design for mass customization involves creating products that can be easily customized to meet individual customer needs. This requires a deep understanding of customer preferences, behaviors, and requirements. Designers must also consider the manufacturing process, supply chain, and logistics to ensure that the products can be produced and delivered efficiently and cost-effectively. Product design for mass customization can be achieved through various techniques, such as modular design, configurable design, and additive manufacturing. Modular design involves creating products that can be easily assembled and disassembled, while configurable design allows customers to customize the product to their specific requirements. Additive manufacturing involves creating products by adding layers of material to create a final product. This technique can be used to create products that are complex and customized, but it can also be expensive and time-consuming.\u003c\/p\u003e\u003ch2\u003eAssembly and Supply Chain Processes for Mass Customization\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eAssembly and supply chain processes for mass customization involve creating products that can be assembled and delivered efficiently and cost-effectively. This requires a deep understanding of the manufacturing process, supply chain, and logistics. Designers must also consider the variety-induced complexity models to ensure that the products can be produced and delivered efficiently and cost-effectively. Variety-induced complexity models involve analyzing the impact of product variety on the manufacturing process, supply chain, and logistics. This can help designers identify potential bottlenecks and develop strategies to mitigate them. Complexity management involves managing the complexity of the manufacturing process, supply chain, and logistics. This can be achieved through various techniques, such as lean manufacturing, Six Sigma, and supply chain management. Lean manufacturing involves reducing waste and improving efficiency, while Six Sigma involves reducing defects and improving quality. Supply chain management involves managing the flow of materials and information throughout the supply chain. This can be achieved through various techniques, such as inventory management, transportation management, and logistics management.\u003c\/p\u003e\u003ch2\u003eVariety-Induced Complexity Models for Mass Customization\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eVariety-induced complexity models for mass customization involve analyzing the impact of product variety on the manufacturing process, supply chain, and logistics. This can help designers identify potential bottlenecks and develop strategies to mitigate them. Complexity management involves managing the complexity of the manufacturing process, supply chain, and logistics. This can be achieved through various techniques, such as lean manufacturing, Six Sigma, and supply chain management. Lean manufacturing involves reducing waste and improving efficiency, while Six Sigma involves reducing defects and improving quality. Supply chain management involves managing the flow of materials and information throughout the supply chain. This can be achieved through various techniques, such as inventory management, transportation management, and logistics management.\u003c\/p\u003e\u003ch2\u003eComplexity Management for Mass Customization\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eComplexity management for mass customization involves managing the complexity of the manufacturing process, supply chain, and logistics. This can be achieved through various techniques, such as lean manufacturing, Six Sigma, and supply chain management. Lean manufacturing involves reducing waste and improving efficiency, while Six Sigma involves reducing defects and improving quality. Supply chain management involves managing the flow of materials and information throughout the supply chain. This can be achieved through various techniques, such as inventory management, transportation management, and logistics management.\u003c\/p\u003e\u003ch2\u003eMarketing Tools for Mass Customization\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eMarketing tools for mass customization involve creating marketing campaigns that are tailored to individual customer needs. This requires a deep understanding of customer preferences, behaviors, and requirements. Marketing tools for mass customization can be achieved through various techniques, such as social media marketing, email marketing, and content marketing. Social media marketing involves using social media platforms to promote products and services. Email marketing involves sending emails to customers to promote products and services. Content marketing involves creating and distributing content that is relevant to customers. Marketing tools for mass customization can be used to increase brand awareness, drive sales, and improve customer satisfaction.\u003c\/p\u003e\u003ch2\u003eInformation Systems to Support Decision-Making for Mass Customization\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eInformation systems to support decision-making for mass customization involve creating systems that can provide real-time information about the manufacturing process, supply chain, and logistics. This can help designers and manufacturers make informed decisions about product design, assembly, and supply chain processes. Information systems to support decision-making for mass customization can be achieved through various techniques, such as data analytics, machine learning, and artificial intelligence. Data analytics involves analyzing data to identify patterns and trends. Machine learning involves using machine learning algorithms to make predictions. Artificial intelligence involves using artificial intelligence algorithms to make decisions. Information systems to support decision-making for mass customization can be used to improve efficiency, reduce waste, and improve quality.\u003c\/p\u003e\u003ch2\u003eCritical Success Factors for Mass Customization\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eCritical success factors for mass customization involve creating a culture of innovation, collaboration, and customer focus. This requires a deep understanding of customer preferences, behaviors, and requirements. Critical success factors for mass customization can be achieved through various techniques, such as customer feedback, employee training, and process improvement. Customer feedback involves collecting feedback from customers to identify areas for improvement. Employee training involves training employees to provide excellent customer service. Process improvement involves identifying and implementing process improvements to improve efficiency, reduce waste, and improve quality.\u003c\/p\u003e\u003ch2\u003eUse of Product Configurators in Practice for Mass Customization\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eProduct configurators are software tools that allow customers to customize products to their specific requirements. Product configurators can be used in a variety of industries, such as automotive, electronics, and furniture. Product configurators can be used to increase sales, reduce waste, and improve customer satisfaction. Product configurators can be used to create products that are complex and customized, but they can also be expensive and time-consuming. Product configurators must be designed to be easy to use and intuitive. Product configurators must also be able to handle large amounts of data. Product configurators must also be able to provide real-time information about the manufacturing process, supply chain, and logistics. Product configurators must also be able to integrate with other systems and software. Product configurators must also be able to be updated and maintained over time. Product configurators must also be able to be used in a variety of languages and cultures. Product configurators must also be able to be used in a variety of devices and platforms. Product configurators must also be able to be used in a variety of environments.\u003c\/p\u003e\u003ch2\u003eSustainability Assessment for Mass Customization Strategy\u003c\/h2\u003e\u003cbr\u003e\u003cp\u003eSustainability assessment for mass customization strategy involves analyzing the environmental, social, and economic impact of mass customization. This can help designers and manufacturers make informed decisions about product design, assembly, and supply chain processes. Sustainability assessment for mass customization strategy can be achieved through various techniques, such as life cycle analysis, carbon footprint analysis, and social impact assessment. Life cycle analysis involves analyzing the environmental impact of a product throughout its life cycle. Carbon footprint analysis involves analyzing the carbon footprint of a product. Social impact assessment involves analyzing the social impact of a product. Sustainability assessment for mass customization strategy can be used to improve efficiency, reduce waste, and improve quality. Sustainability assessment for mass customization strategy can also be used to improve brand reputation and customer loyalty. Sustainability assessment for mass customization strategy can also be used to comply with environmental regulations and standards. Sustainability assessment for mass customization strategy can also be used to attract new customers and retain existing customers. Sustainability assessment for mass customization strategy can also be used to improve the overall sustainability of the manufacturing and marketing industry.\u003c\/p\u003e\u003ch1\u003eConclusion\u003c\/h1\u003e\u003cbr\u003e\u003cp\u003eMass customization is a manufacturing and marketing strategy that involves designing, manufacturing, and delivering products that are tailored to individual customer requirements. This book brings together original contributions from designers, manufacturers, and customers to explore advancements in product design, assembly and supply chain processes, variety-induced complexity models, complexity management, marketing tools, information systems, and critical success factors of mass customization. It also focuses on the use of product configurators in practice and sustainability assessment for mass customization strategy. The aim is to disseminate current developments and approaches for further theoretical investigation and practical applications of mass customized manufacturing systems.\u003c\/p\u003e\u003cp\u003e                            \u003cstrong\u003eWeight\u003c\/strong\u003e: 612g                            \u003cbr\u003e\u003cstrong\u003eDimension\u003c\/strong\u003e: 234 x 156 (mm)                            \u003cbr\u003e\u003cstrong\u003eISBN-13\u003c\/strong\u003e: 9780367782528                                                      \u003c\/p\u003e","brand":"Shulph Ink","offers":[{"title":"Paperback \/ softback","offer_id":44104696430842,"sku":"9780367782528","price":49.49,"currency_code":"GBP","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0522\/4297\/2845\/products\/ee9229da8276d51b9d8e224f474a98d3.jpg?v=1620649315"},{"product_id":"biopolymers-for-medical-applications","title":"Biopolymers for Medical Applications","description":"\u003cp\u003e\u003c\/p\u003e\u003cblockquote\u003e\n\u003cbr\u003eBiopolymers are macromolecules produced by living systems that offer advantages over synthetic polymers in medicine, including diversity, abundance, low cost, and sustainability. This book explores techniques for producing biodevices and developments in nanodrug delivery, gene therapy, and tissue engineering. \u003c\/blockquote\u003e\u003cp\u003e                                                            \u003cstrong\u003eFormat\u003c\/strong\u003e: Paperback \/ softback\u003cbr\u003e                              \u003cstrong\u003eLength\u003c\/strong\u003e: 372 pages\u003cbr\u003e                              \u003cstrong\u003ePublication date\u003c\/strong\u003e: 31 March 2021\u003cbr\u003e                              \u003cstrong\u003ePublisher\u003c\/strong\u003e: Taylor \u0026amp; Francis Ltd\u003cbr\u003e                          \u003c\/p\u003e \u003cp\u003e\u003cbr\u003eBiopolymers are macromolecules produced by living systems, such as proteins, polypeptides, nucleic acids, and polysaccharides, that offer numerous advantages over polymers produced using synthetic chemistry. These advantages include diversity, abundance, relatively low cost, and sustainability. This book presents an experimental and computational account of the applications of biopolymers in the field of medicine, including techniques for the production of different biodevices, such as scaffolds, hydrogels, functional nanoparticles, microcapsules, and nanocapsules. 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Various methods such as chemical modification, physical modification, and surface modification are discussed in detail. Chemical modification involves the introduction of functional groups onto the nanomaterials, which can improve their stability, solubility, and reactivity. Physical modification involves the modification of the nanomaterials' shape, size, and surface morphology, which can improve their mechanical properties and surface area. Surface modification involves the introduction of surface coatings or functional groups onto the nanomaterials, which can improve their hydrophilicity, biocompatibility, and drug delivery properties.\u003cbr\u003e\u003cbr\u003eThe third chapter discusses the applications of electrospun nanofibers and nanomaterials in various fields. Healthcare applications include wound healing, drug delivery, and tissue engineering. Electronics applications include sensors, displays, and energy storage. 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It offers a framework and foundation for launching improvement initiatives and maintaining cultural habits and behaviors. Case studies from various industries, businesses, and institutions are included. \u003c\/blockquote\u003e\u003cp\u003e                                                            \u003cstrong\u003eFormat\u003c\/strong\u003e: Paperback \/ softback\u003cbr\u003e                              \u003cstrong\u003eLength\u003c\/strong\u003e: 264 pages\u003cbr\u003e                              \u003cstrong\u003ePublication date\u003c\/strong\u003e: 31 March 2021\u003cbr\u003e                              \u003cstrong\u003ePublisher\u003c\/strong\u003e: Taylor \u0026amp; Francis Ltd\u003cbr\u003e                          \u003c\/p\u003e \u003cp\u003e\u003cbr\u003eAffordability is a revolutionary concept that empowers organizations to achieve continuous improvement and drive success. 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The authors provide examples of die-life parameters and hints for modifying tool steels and heat treatments during cutting or forming processes. These case studies and failure analyses are from the Villares Metals plant in Brazil, which is one of the largest and most advanced tool steel manufacturers in the world.\u003cbr\u003e\u003cbr\u003eThe book also covers the latest developments in tool steel technology, such as the use of advanced materials, such as ceramics and composites, and the development of new heat treatments and surface hardening techniques. It also discusses the environmental impact of tool steel manufacturing and the need for sustainable practices.\u003cbr\u003e\u003cbr\u003eIn conclusion, this handy book provides a single, up-to-date source of information for increasing the life of tool steels through optimized design and manufacturing. It explains how material compositions, manufacturing processes, heat treatments, surface hardening techniques, and coatings affect tool steel properties, grades, and performance. It also offers examples of real-life case studies and failure analyses, and covers the latest developments in tool steel technology. 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It covers a range of nanometer-scale materials and the synthesis processes used to produce them, as well as advanced characterization techniques, lab safety, and project examples. \u003c\/blockquote\u003e\u003cp\u003e                                                            \u003cstrong\u003eFormat\u003c\/strong\u003e: Paperback \/ softback\u003cbr\u003e                              \u003cstrong\u003eLength\u003c\/strong\u003e: 260 pages\u003cbr\u003e                              \u003cstrong\u003ePublication date\u003c\/strong\u003e: 31 March 2021\u003cbr\u003e                              \u003cstrong\u003ePublisher\u003c\/strong\u003e: Taylor \u0026amp; Francis Ltd\u003cbr\u003e                          \u003c\/p\u003e \u003cp\u003eA Laboratory Course in Nanoscience and Nanotechnology is a practical manual that provides undergraduate students with hands-on skills to synthesize their own nanometer-scale materials and structures and analyze their results using advanced characterization techniques. Written by a pioneer in nanotechnology, the book underscores the interdisciplinary nature of nanoscience, preparing students from physics, chemistry, engineering, and biology for work in nanoscience- and nanotechnology-related industries. The book introduces examples of nanometer-scale materials and structures found in nature, presents a range of nanometer-scale materials and the synthesis processes used to produce them, covers advanced characterization techniques for examining nanometer-scale materials and structures, addresses lab safety and the identification of potential hazards in the lab, explains how to prepare a scientific report and present research results, and concludes with a set of projects that students can do while collaborating with a mentor.\u003c\/p\u003e\u003cp\u003e                            \u003cstrong\u003eWeight\u003c\/strong\u003e: 481g                            \u003cbr\u003e\u003cstrong\u003eDimension\u003c\/strong\u003e: 234 x 156 (mm)                            \u003cbr\u003e\u003cstrong\u003eISBN-13\u003c\/strong\u003e: 9780367783679                                                      \u003c\/p\u003e","brand":"Gerrard Eddy Jai Poinern","offers":[{"title":"Paperback \/ softback","offer_id":44103732887802,"sku":"9780367783679","price":48.54,"currency_code":"GBP","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0522\/4297\/2845\/products\/5840a022677a8303571e1497cb57d044.jpg?v=1620661825"},{"product_id":"properties-of-materials","title":"Properties of Materials","description":"\u003cp\u003e\u003c\/p\u003e\u003cblockquote\u003e The second volume in the authors three-part series, Properties of Materials, uses classical mechanics to model specific features of matter, including elasticity, liquids and gases, oscillating systems, acoustics, optics, temperature, heat, and thermometry. It emphasizes the modeling of composite systems assembled from simple constituents and can serve as a primary textbook in an introductory physics course, student supplement, or exam review. Solutions manual available upon qualifying course adoption. \u003c\/blockquote\u003e\u003cp\u003e                                                            \u003cstrong\u003eFormat\u003c\/strong\u003e: Paperback \/ softback\u003cbr\u003e                              \u003cstrong\u003eLength\u003c\/strong\u003e: 427 pages\u003cbr\u003e                              \u003cstrong\u003ePublication date\u003c\/strong\u003e: 31 March 2021\u003cbr\u003e                              \u003cstrong\u003ePublisher\u003c\/strong\u003e: Taylor \u0026amp; Francis Ltd\u003cbr\u003e                          \u003c\/p\u003e \u003cp\u003e The second volume in the author's three-part series, Properties of Materials, utilizes classical mechanics principles to model specific features of matter. The text develops linear models of elasticity to correlate and quantify the changes in an object's shape induced by a constant force. It describes quiescent and flowing liquids and gases and examines the behavior of oscillating systems subjected to time-dependent external applied forces. The author employs linear superposition to analyze the combined effects of two or more waves simultaneously present in a medium, such as standing waves, beating, interference, and diffraction. The book considers acoustics, including the production, propagation, and perception of sound, as well as optics, including the laws of reflection and refraction. It also treats temperature, heat, and thermometry before applying the laws of thermodynamics to ideal gas systems. Throughout the investigations of particular phenomena, the author emphasizes the modeling of composite systems assembled from simple constituents. This text extends the rigorous calculus-based introduction to classical physics begun in his Elements of Mechanics. With more than 300 problems, it can serve as a primary textbook in an introductory physics course, as a student supplement, or as an exam review for graduate or professional studies. Solutions manual available upon qualifying course adoption View the author's related textbooks Elements of Mechanics and Electricity and Magnetism. Read reviews of Elements of Mechanics.\u003c\/p\u003e\u003cp\u003e                            \u003cstrong\u003eWeight\u003c\/strong\u003e: 789g                            \u003cbr\u003e\u003cstrong\u003eDimension\u003c\/strong\u003e: 254 x 178 (mm)                            \u003cbr\u003e\u003cstrong\u003eISBN-13\u003c\/strong\u003e: 9780367783686                                                      \u003c\/p\u003e","brand":"P.F. 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It also includes bismuth vanadate-based nanostructured and nanocomposite photocatalyst materials for water splitting applications. \u003c\/blockquote\u003e\u003cp\u003e                                                            \u003cstrong\u003eFormat\u003c\/strong\u003e: Paperback \/ softback\u003cbr\u003e                              \u003cstrong\u003eLength\u003c\/strong\u003e: 394 pages\u003cbr\u003e                              \u003cstrong\u003ePublication date\u003c\/strong\u003e: 31 March 2021\u003cbr\u003e                              \u003cstrong\u003ePublisher\u003c\/strong\u003e: Taylor \u0026amp; Francis Ltd\u003cbr\u003e                          \u003c\/p\u003e \u003cp\u003e\u003cbr\u003eThe second volume of this book, a comprehensive guide to modern nanocomposites, expands its coverage to include various applications fabricated by carbon nanotubes and graphene. It delves into the comparative study of fiber-reinforced composites, where nanocomposites containing nanotubes replace traditional fibers within the matrix. This volume explores key topics such as the electrochemical properties of nanoporous-based materials, the fabrication and application of graphene oxide-based metal and metal oxide nanocomposites, the development of electrochemical sensors and biosensors based on carbon aerogels and xerogels, advancements in nanobiocatalysis for lipase immobilization and stabilization, the use of metal oxide-based heterojunction nanoscale materials for chemiresistive gas sensors, recent advances in polymer nanocomposite coatings for corrosion protection, the design of nanocomposite materials via laser techniques for biomedical applications, the utilization of carbonaceous nanostructured composites for electrochemical power sources, including fuel cells, supercapacitors, and batteries, and the exploration of bismuth vanadate-based nanostructured and nanocomposite photocatalyst materials for water splitting applications.\u003cbr\u003e\u003cbr\u003e\u003c\/p\u003e\u003cp\u003eThe second volume aims to provide a comprehensive guide for different applications of modern nanocomposites, especially those fabricated by carbon nanotubes and graphene.\u003c\/p\u003e\u003cp\u003eThe book delves into the comparative study of fiber-reinforced composites, where nanocomposites containing nanotubes replace traditional fibers within the matrix.\u003c\/p\u003e\u003cp\u003eThis volume explores key topics such as the electrochemical properties of nanoporous-based materials, the fabrication and application of graphene oxide-based metal and metal oxide nanocomposites, the development of electrochemical sensors and biosensors based on carbon aerogels and xerogels, advancements in nanobiocatalysis for lipase immobilization and stabilization, the use of metal oxide-based heterojunction nanoscale materials for chemiresistive gas sensors, recent advances in polymer nanocomposite coatings for corrosion protection, the design of nanocomposite materials via laser techniques for biomedical applications, the utilization of carbonaceous nanostructured composites for electrochemical power sources, including fuel cells, supercapacitors, and batteries, and the exploration of bismuth vanadate-based nanostructured and nanocomposite photocatalyst materials for water splitting applications.\u003c\/p\u003e\u003cp\u003e                            \u003cstrong\u003eWeight\u003c\/strong\u003e: 739g                            \u003cbr\u003e\u003cstrong\u003eDimension\u003c\/strong\u003e: 254 x 178 (mm)                            \u003cbr\u003e\u003cstrong\u003eISBN-13\u003c\/strong\u003e: 9780367779412                                                      \u003c\/p\u003e","brand":"Shulph Ink","offers":[{"title":"Paperback \/ softback","offer_id":44103824933114,"sku":"9780367779412","price":46.64,"currency_code":"GBP","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0522\/4297\/2845\/products\/88cc44dbd622677da231770e79512273.jpg?v=1620672754"},{"product_id":"toxicity-of-nanomaterials-environmental-and-healthcare-applications","title":"Toxicity of Nanomaterials: Environmental and Healthcare Applications","description":"\u003cp\u003e\u003c\/p\u003e\u003cblockquote\u003e\n\u003cbr\u003eThis book provides a comprehensive overview of the environmental and health impacts of nanomaterials, with a focus on toxicology during synthesis, production, and application. It is of interest to advanced students, PhD researchers, post-docs, and academics in nanotechnology, medicine, manufacturing, and regulatory bodies. \u003c\/blockquote\u003e\u003cp\u003e                                                            \u003cstrong\u003eFormat\u003c\/strong\u003e: Paperback \/ softback\u003cbr\u003e                              \u003cstrong\u003eLength\u003c\/strong\u003e: 246 pages\u003cbr\u003e                              \u003cstrong\u003ePublication date\u003c\/strong\u003e: 31 March 2021\u003cbr\u003e                              \u003cstrong\u003ePublisher\u003c\/strong\u003e: Taylor \u0026amp; Francis Ltd\u003cbr\u003e                          \u003c\/p\u003e \u003cp\u003e\u003cbr\u003eThis extensive book, meticulously edited by two renowned experts in nanotechnology and bioengineering, with valuable contributions from a diverse global team of specialists, offers a comprehensive exploration of the environmental and health implications associated with the toxicology of nanomaterials. Extensive attention is dedicated to examining the toxicity of nanomaterials during their synthesis, production, and practical applications, with chapters throughout focusing on critical areas that will shape the future of nanomaterial research and development. This invaluable resource will captivate advanced students pursuing degrees in biomedical engineering and materials science, postdoctoral researchers, academics specializing in nanotechnology, medicine, manufacturing, and regulatory bodies.\u003cbr\u003e\u003cbr\u003eKey Features:\u003cbr\u003eComprehensive Coverage: This book provides a single, comprehensive source of information on the toxicology of nanomaterials, covering a wide range of aspects and perspectives.\u003cbr\u003e\u003cbr\u003eExpert Insights: The editors are accomplished experts in their respective fields, ensuring that the content is based on the latest research and insights from leading scholars and practitioners.\u003cbr\u003e\u003cbr\u003eGlobal Collaboration: Contributions from a diverse team of specialists from around the world contribute to a rich and diverse perspective, enhancing the overall understanding of nanomaterial toxicology.\u003cbr\u003e\u003cbr\u003eIn-depth Analysis: Chapters delve into critical topics such as the effects of nanocrystals, the environmental and cytotoxicity risks associated with graphene and 2D nanomaterials, and practical methods for detection and quantification, with applications in environmental and healthcare fields.\u003cbr\u003e\u003cbr\u003eFor advanced students, postdoctoral researchers, academics, and professionals seeking a comprehensive understanding of the environmental and health impacts of nanomaterials, this book is an essential resource. Its comprehensive coverage, expert insights, and global collaboration make it a valuable tool for advancing research and development in this rapidly evolving field.\u003c\/p\u003e\u003cp\u003e                            \u003cstrong\u003eWeight\u003c\/strong\u003e: 476g                            \u003cbr\u003e\u003cstrong\u003eDimension\u003c\/strong\u003e: 254 x 178 (mm)                            \u003cbr\u003e\u003cstrong\u003eISBN-13\u003c\/strong\u003e: 9780367779757                                                      \u003c\/p\u003e","brand":"Shulph Ink","offers":[{"title":"Paperback \/ softback","offer_id":44105092235514,"sku":"9780367779757","price":48.54,"currency_code":"GBP","in_stock":true}],"thumbnail_url":"\/\/cdn.shopify.com\/s\/files\/1\/0522\/4297\/2845\/products\/5612f67dbca31c1a9e74b52a9b7c28d3.jpg?v=1620672791"},{"product_id":"responsible-manufacturing-issues-pertaining-to-sustainability","title":"Responsible Manufacturing: Issues Pertaining to Sustainability","description":"\u003cp\u003e\u003c\/p\u003e\u003cblockquote\u003e\n\u003cbr\u003eResponsible Manufacturing is enforced by customer perspective and governmental regulations due to the deteriorating environment. This book provides a foundation for academicians and practitioners, addressing issues such as the lifecycle of products, disassembly, material recovery, remanufacturing, and pollution prevention. \u003c\/blockquote\u003e\u003cp\u003e                                                            \u003cstrong\u003eFormat\u003c\/strong\u003e: Paperback \/ softback\u003cbr\u003e                              \u003cstrong\u003eLength\u003c\/strong\u003e: 414 pages\u003cbr\u003e                              \u003cstrong\u003ePublication date\u003c\/strong\u003e: 31 March 2021\u003cbr\u003e                              \u003cstrong\u003ePublisher\u003c\/strong\u003e: Taylor \u0026amp; Francis Ltd\u003cbr\u003e                          \u003c\/p\u003e \u003cp\u003e\u003cbr\u003eResponsible manufacturing has emerged as a crucial obligation to both the environment and society, driven primarily by the growing concerns of customers and governmental regulations related to environmental issues. The deteriorating state of the environment, characterized by diminishing raw material resources, overflowing waste sites, and escalating pollution levels, serves as the primary catalyst for this transformation.\u003cbr\u003e\u003cbr\u003eThe realm of responsible manufacturing has garnered significant attention in industry and academia, with the aim of addressing the challenges and complexities that arise in this rapidly evolving research area. These challenges encompass a wide range of issues, including product lifecycle management, disassembly, material recovery, remanufacturing, and pollution prevention.\u003cbr\u003e\u003cbr\u003eOrganized into sixteen chapters, this book serves as a valuable resource for academicians and practitioners alike. It provides a solid foundation for those interested in advancing knowledge in responsible manufacturing, while also offering practical solutions to the issues faced by strategic, tactical, and operational planners.\u003cbr\u003e\u003cbr\u003eOne of the key strengths of this book is its ability to leverage efficient models and decision-making methodologies to address a diverse range of responsible manufacturing issues. By employing mathematical and simulation modeling techniques, the book offers easy-to-use approaches for solving the majority of the problems encountered in this field.\u003cbr\u003e\u003cbr\u003eFurthermore, the book addresses strategic, tactical, and operational systems issues, providing a comprehensive framework for understanding and addressing the complexities of responsible manufacturing. It serves as a valuable reference for academicians, researchers, and practitioners seeking to build bodies of knowledge in this rapidly growing area.\u003cbr\u003e\u003cbr\u003eIn conclusion, responsible manufacturing has become an essential requirement for businesses and organizations seeking to minimize their environmental impact and contribute to the well-being of society. This book provides a comprehensive and practical guide to addressing the challenges and opportunities associated with responsible manufacturing, making it a valuable resource for anyone interested in this field.\u003c\/p\u003e\u003cp\u003e                            \u003cstrong\u003eWeight\u003c\/strong\u003e: 798g                            \u003cbr\u003e\u003cstrong\u003eDimension\u003c\/strong\u003e: 234 x 156 (mm)                            \u003cbr\u003e\u003cstrong\u003eISBN-13\u003c\/strong\u003e: 9780367780241                                                      \u003c\/p\u003e","brand":"Shulph Ink","offers":[{"title":"Paperback \/ softback","offer_id":44103771488506,"sku":"9780367780241","price":49.49,"currency_code":"GBP","in_stock":true}]},{"product_id":"phenomenological-creep-models-of-composites-and-nanomaterials-deterministic-and-probabilistic-approach","title":"Phenomenological Creep Models of Composites and Nanomaterials: Deterministic and Probabilistic Approach","description":"\u003cp\u003e\u003c\/p\u003e\u003cblockquote\u003e\n\u003cbr\u003eThe use of new engineering materials in the aerospace and space industry is governed by the need for enhancing the bearing capacity of structural elements and systems, improving the performance of specific applications, reducing structural weight, and improving cost-effectiveness. This book reviews the effect of high temperature creep on structural system response and provides new phenomenological creep models of composites and nanomaterials. Composite elements and heterogeneous materials make essential changes to the classical scheme for constructing the phenomenological creep model of composite elements, and the results are supported by practical structural design examples. \u003c\/blockquote\u003e\u003cp\u003e                                                            \u003cstrong\u003eFormat\u003c\/strong\u003e: Paperback \/ softback\u003cbr\u003e                              \u003cstrong\u003eLength\u003c\/strong\u003e: 402 pages\u003cbr\u003e                              \u003cstrong\u003ePublication date\u003c\/strong\u003e: 31 March 2021\u003cbr\u003e                              \u003cstrong\u003ePublisher\u003c\/strong\u003e: Taylor \u0026amp; Francis Ltd\u003cbr\u003e                          \u003c\/p\u003e \u003cp\u003e\u003cbr\u003eThe utilization of cutting-edge engineering materials in the aerospace and space sectors is primarily driven by the requirement to enhance the bearing capacity of structural elements and systems, improve the performance of specific applications, reduce structural weight, and enhance its cost-effectiveness. Crystalline composites and nanomaterials are employed to design lightweight structural elements due to their inherent properties of stiffness, strength, and low density\/weight. This book delves into the impact of high temperature creep on structural system response and presents novel phenomenological creep models (deterministic and probabilistic approaches) for composites and nanomaterials.\u003cbr\u003e\u003cbr\u003eIn selecting the creep functions to describe a diverse range of material behaviors, certain criteria have been employed. Experimentally testing and evaluating time-variant creep in composite and nanomaterials is intricate, costly, and time-consuming. Consequently, analytical analysis of creep properties and behavior of structural elements composed of composite and nanocomposite materials subjected to severe thermal loadings conditions holds immense practical significance.\u003cbr\u003e\u003cbr\u003eComposite elements and heterogeneous materials, from which they are derived, introduce significant modifications to the classical framework for constructing the phenomenological creep model of composite elements. This is because it captures the unique characteristics of composite materials and manifests itself in the selection of two fundamental functions of the creep constitutive equation: memory and instantaneous modulus of elasticity functions. As such, the concepts and analytical techniques presented herein are valuable. 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