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Nanomaterials for Thermoelectric Devices
With the increaseing global demand for energy, we are facing a huge challenge of energy sustainability. Renewable energy has attracted an immense amount of interest with regard to solving the sustainbility issue. Among the various renewable energy sources, solar heat and waste heat energy has significant advantages due to its availability. Thermoelectric nanomaterials play an indispensable role in heat-to-electricity energy conversion. A high energy conversion efficiency is critical for practical applications of thermoelectric energy conversion systems, and understanding the fundamentals of energy conversion mechanisms is essential. This book details thermoelectric energy conversion nanomaterials and the related manufacturing processes. It also introduces the latest research progress in thermoelectric energy conversion nanomaterials. It is a great reference for readers from both academia and industry.
Polymeric Nanofibers and their Composites
Polymeric Nanofibers and their Composites: Recent Advances and Applications covers the fundamentals, synthesis, characterization, properties, and applications of natural and synthetic nanofibers and their related composites. The book covers industrial, biological, and environmental applications, including biomedical, wastewater treatment, energy storage, gas adsorption, supercapacitor, electrocatalysis, electronics, sensors, batteries, fuel Cells, solar cells, water splitting, catalysis, separation, and purification. With an international author-base, this work provides a valuable reference resource for academic and industrial researchers, materials scientists, and engineers, and all those working in nanofibers fabrication, nanomaterials design, and in polymers, composites, and their related industrial applications.
Small-Scale Energy Harvesting
The purpose of this book is to provide an up-to-date view of latest research advances in the design of efficient small-scale energy harvesters through contributions of internationally recognized researchers. The book covers the physics of the energy conversion, the elaboration of electroactive materials and their application to the conception of a complete microgenerator, and is organized according to the input energy source. I sincerely hope you will find this book as enjoyable to read as it was to edit, and that it will help your research and/or give new ideas in the wide field of energy harvesting.
Continuum Mechanics
Continuum Mechanics is the foundation for Applied Mechanics. There are numerous books on Continuum Mechanics with the main focus on the macroscale mechanical behavior of materials. Unlike classical Continuum Mechanics books, this book summarizes the advances of Continuum Mechanics in several defined areas. Emphasis is placed on the application aspect. The applications described in the book cover energy materials and systems (fuel cell materials and electrodes), materials removal, and mechanical response/deformation of structural components including plates, pipelines etc. Researchers from different fields should be benefited from reading the mechanics approached to real engineering problems.
Characterization of Microstructure and Mechanical Properties of AL6063 Using FSP Multipass
The need for low weight and high performance structural materials has revolutionized the technology and has led to the emergence of new processes and methodologies. Friction stir processing (FSP), based on the principle of friction stir welding, is an emerging solid state metal working process. This technique causes intense plastic deformation and high strain rates in the processed material, resulting in precise control of the microstructure through material mixing and densification. FSP process has been successfully used for achieving significant grain refinement and enhancement of surface properties. The present work focuses on the study of behavior of Aluminium cast alloy (Al-6063) processed by the friction stir processing technique. Samples of FSP-ed aluminium were examined and their microstructures, microhardness, Rockwell hardnesss and impact strength were studied and compared with base metal Al-6063. Hardness tester was employed to evaluate the interfacial bonding between the particles and matrix by indenting the hardness with the constant load and constant time. Impact test was employed to know the Impact Strength of samples against the Impact of Hammer.
Aerogel
What Is Aerogel ‘Aerogel’ is a broad term used to talk about an extraordinary group of materials that have been used since the 1960s in space travel but are now finding uses across a whole range of industries. ‘Aerogel’ is not a specific mineral or material with a set chemical formula-rather, the term is used to encompass all materials with a specific geometrical structure. This structure is an extremely porous, solid foam, with high connectivity between branched structures of a few nanometres across. Though aerogel is technically a foam, it can take many different shapes and forms. The majority of aerogel is composed of silica, but carbon, iron oxide, organic polymers, semiconductor...
Applications of Nanocomposites
In this book, different applications of nanomaterials are described based on experiments, validations, and prototype manufacturing. It also covers synthesis, characterization, functionalization and coating of nanomaterials in various application-oriented investigations. The use of nanomaterials in energy storage, catalyst preparation and tribology are a few examples of improving the efficiency of future technologies. In addition, this book has also contributed to the nanomanufacturing of composites for automobile industries, glass industries, textiles and flexible electronics. This book provides knowledge on multiple related fields in applying nanomaterials, emphasizing the most updated literature, understanding applications, and consists of examples and illustrations so that readers can absorb the content rapidly.
Biofluids Modeling
BIOFLUIDS MODELING The first book offering analytical and modern computational solutions to important biofluids problems, such as non-Newtonian flows in blood vessels, clogged arteries and veins, bifurcated arteries and veins, arbitrary stent geometries, tissue properties prediction, and porous media Darcy flow simulation in large-scale organ analysis, this is a must-have for any library. This book introduces new methods for biofluids modeling and biological engineering. The foregoing subjects are treated rigorously, with all modeling assumptions stated and solutions clearly derived. But that’s not all. Key supporting physics-based ideas, algorithmic details, and software design interfaces...
Nanofillers
1) Aids professionals in meeting an increasing demand for more sustainable materials which are biodegradable, as nanomaterials meet these criteria 2) Monitors the impact of organic nanofillers in promoting polymer circular economy 3) Discusses computational studies on the effect of nanofillers on polymer matrices 4) Looks at properties of nanofillers including the mechanical, thermal, electrical, optical, and magnetic properties
Advances in Parasitology
Advances in Parasitology, Volume 121, the latest release in this ongoing series, includes medical studies of parasites of major influence, along with reviews of more traditional areas, such as zoology, taxonomy and life history. Specific sections in this new release focus on Cryptosporidiosis. Provides the authority and expertise of leading contributors from an international board of authors Presents the latest release in the Advances in Parasitology series Updated release includes the latest information on fundamental life science
