mechanical properties of some iii v and ii vi semiconductor alloys



Effects of ordering in III–V semiconductor alloy systems Effects of ordering in III–V semiconductor alloy systems Новинка

Effects of ordering in III–V semiconductor alloy systems

This work provides and highlights the effects of microscopic ordering on the properties of semiconductor alloys. It brings us one–step closer in understanding the fundamental ground that influences the properties of semiconductor alloys. For the alloy studied, i.e. AlGaAs, GaInP, BGaP, and AlGaInP, our results can serve as a guide for theoreticians, experimentalists, and device engineers to focus on the microscopic structures that are predicted to give their desired properties. This work will draw attentions to the fact that properties of semiconductor alloys can be adjusted by controlling the atomic ordering in addition to the alloy composition. This opens up a new way to control semiconductor properties, such as bandgap and electron effective mass. This work also helps to gain better understanding in the relationship between atomic arrangements in alloys and the observable properties.
Mechanical Properties of Some III-V and II-VI Semiconductor Alloys Mechanical Properties of Some III-V and II-VI Semiconductor Alloys Новинка

Mechanical Properties of Some III-V and II-VI Semiconductor Alloys

Semiconductors, the major area of research in materials science, have offered solutions to several important technological problems and provided many devices for day to day applications. Development in novel semiconductor materials such as heterostructure systems and the ever-diminishing size of devices are producing an explosion of interest and activity in the field of semiconductor materials and devices. The characterization of epitaxial layers and their surfaces have benefited a lot from the enormous progress of micro and nanomechanical analysis techniques. In particular, the dramatic improvement of the structural quality of semiconductor materials results from the level of sophistication achieved with such analysis techniques. First of all, micromechanical technique is nondestructive and its sensitivity has been improved to such an extent that nowadays the epilayer analysis can be performed on layers with thicknesses ranging on the atomic scale. Thus, this book addresses some of the collective works on III-V semiconductors which could be to be extremely important from a technological point of view, i.e., for the surveillance of modern semiconductor processes.
Physical properties of calcogenide and their possible applications Physical properties of calcogenide and their possible applications Новинка

Physical properties of calcogenide and their possible applications

It gives me immense pleasure to introduce readers a book about chalcogenides (especially, sulphides and their composites), their physical properties as well as possible applications. Interesting and fascinating material properties of II-VI, V-VI semiconductor compounds and their composites for futuristic developments of photosensors have been put forth in this book. This book is an outcome of author’s extensive research experience and rigorous studies in chalcogenide thin films, photosensor, opto-electronic, and solar cell device applications.
Cobalt - Physical Properties, Metallurgy, Alloys, Chemistry and Uses Cobalt - Physical Properties, Metallurgy, Alloys, Chemistry and Uses Новинка

Cobalt - Physical Properties, Metallurgy, Alloys, Chemistry and Uses

This is a compilation of two previous Canada Department of Mines titles, "The Physical Properties of the Metal Cobalt" (H.T. Kalmus), and "Cobalt - Its Occurrence, Metallurgy, Uses and Alloys" (Charles W. Drury), with some minor corrections and additions.
ZnS Nanoparticles Synthesis,Properties and Applications ZnS Nanoparticles Synthesis,Properties and Applications Новинка

ZnS Nanoparticles Synthesis,Properties and Applications

Nano materials are widely seen as having huge potential to bring benefits to many areas of research and applications. ZnS is a direct-transition semiconductor with the widest energy band gap among the groups II–VI compound semiconductor materials, and it is an important material with an extensive range of applications.This book provides the basics of nanotechnology, basic ideas of milling parameters, applications of semiconductor nanoparticles, detailed description of characterization and synthesis techniques. This book covers the Structural,Thermal, and Optical properties of ZnS nanoparticles.
My Journey to Nanotechnology My Journey to Nanotechnology Новинка

My Journey to Nanotechnology

The work described herein addresses the following three themes in nanoscale research with emphasis on quantum confinement of atom in II ? VI semiconductor nanoscale materials and: 1. Comparative analysis of characterization tools viz. XRD, SAXS and SANS in analyzing particle sizes; 2. Controlled syntheses of II ? VI semiconductor nanoscale materials using various organic and biological molecules; and 3. Investigations on the fundamental physical properties of nanoparticles, such as the effect of surface modifications by organic/biomolecules on size, luminescence and band gap and their stability.
Effect of some Element Addition on the Mechanical of Lead Free Solder Effect of some Element Addition on the Mechanical of Lead Free Solder Новинка

Effect of some Element Addition on the Mechanical of Lead Free Solder

This work is devoted to investigate the tensile properties of the newly developed Sn–9Zn–xBi (1, and 4 wt.%) lead free solder alloys at different strain rates and temperatures to compare the results with the eutectic Sn–9Zn. also, the investigation of creep characteristics at different stresses and temperatures for selected lead-free solder alloys are presented. The microstructure and the thermal properties of these alloys were also thoroughly investigated and further, to determine the effect of Bi addition on promoting the properties of Sn–Zn alloys.
Chiral 3D Potassium tris(oxalato)ferrate(III) crystals Chiral 3D Potassium tris(oxalato)ferrate(III) crystals Новинка

Chiral 3D Potassium tris(oxalato)ferrate(III) crystals

This book deals with the synthesis, crystal growth and some of the physical properties of anhydrous Potassium tris(oxalato)ferrate(III) and Potassium sodium tris(oxalato)ferrate(III) with multifunctional applications. This book focuses on the crystal growth, structure, perfection, spectroscopic, optical, magnetic, dielectric and mechanical properties. The charge transfer mechanism is discussed using the quantum mechanical calculations of hyper polarizability and dipole moment. From the decomposition of iron oxide nanoparticles using XRD and spectroscopic techniques. Magnetic behaviuor of resulting polymorphs of iron oxide nanoparticles also discussed.
Electrical Properties of Semiconductor Nanoparticles Electrical Properties of Semiconductor Nanoparticles Новинка

Electrical Properties of Semiconductor Nanoparticles

Currently, semiconductor nanomaterials and devices are still in the research stage, but they are promising for applications in many fields, such as solar cells, nanoscale electronic devices, light-emitting nanodevices, laser technology, waveguide, chemicals and biosensors. Further development of nanotechnology will certainly lead to significant breakthroughs in the semiconductor industry. The book describes the most important II–VI semiconductors with applications in solar cells, optoelectronics and electronic devices. CdS, CdSe, ZnS and TiO2 nanoparticles were synthesized by the wet chemical method. The crystal structure and grain size of the particles were determined by X-ray diffraction (XRD).The dielectric properties of nanoparticles were studied in the frequency range of 50Hz-5MHz at different temperatures. Further, electronic properties like valence electron plasma energy, average energy gap or Penn gap, Fermi energy and electronic polarizability of the nanoparticleswere calculated.
Jones Anthony C. CVD of Compound Semiconductors. Precursor Synthesis, Developmeny and Applications Jones Anthony C. CVD of Compound Semiconductors. Precursor Synthesis, Developmeny and Applications Новинка

Jones Anthony C. CVD of Compound Semiconductors. Precursor Synthesis, Developmeny and Applications

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Chemical growth methods of electronic materials are the keystone of microelectronic device processing. This book discusses the applications of metalorganic chemistry for the vapor phase deposition of compound semiconductors. Vapor phase methods used for semiconductor deposition and the materials properties that make the organometallic precursors useful in the electronics industry are discussed for a variety of materials. Topics included: * techniques for compound semiconductor growth * metalorganic precursors for III-V MOVPE * metalorganic precursors for II-VI MOVPE * single-source precursors * chemical beam epitaxy * atomic layer epitaxy Several useful appendixes and a critically selected, up-to-date list of references round off this practical handbook for materials scientists, solid-state and organometallic chemists, and engineers.
ECR Etching of II-VI Compound Semiconductors ECR Etching of II-VI Compound Semiconductors Новинка

ECR Etching of II-VI Compound Semiconductors

The dry etching of II-VI compounds is important for the device processing as it has higher degree of etch selectivity and anisotropy. Different techniques for plasma generation have been discussed. Set up of ECR system with various components and the generation of ECR plasma has been described. The book consists of ECR etching of III-V and II-VI group compound materials. The etching experiments were carried out by changing the various parameters like temperature, etching time, flow rate, microwave power and RF power. UV-Vis spectroscopic study of the etched samples has been made which is discussed in detail. ECR etching of cadmium zinc telluride, one of the II-VI compound materials has been performed by using gas mixture of CCl2F2 and Ar. The CCl2F2 gas is chosen for the etching purposes because of its less toxicity in comparison to pure Cl and other Cl based gases. Structural, thermal and optical properties of II-VI compounds and their various applications have also been discussed. In one chapter the optical properties of the amorphous films have been investigated when the films have been exposed to the ECR discharge.
Defect Studies in III-V Semiconductors by Positron Annihilation Defect Studies in III-V Semiconductors by Positron Annihilation Новинка

Defect Studies in III-V Semiconductors by Positron Annihilation

III-V compound semiconductors are used in the fabrication of a variety of discrete and integrated optoelectronic devices due to their superior electronic properties. Diffusion is one of the fundamental processes employed in the semiconductor industry. This process plays a key role in the kinetics of many microstructural changes that occur during processing of semiconductors. Lattice defects robustly influence or even determine most of the important properties, for example the optical and electrical properties, of semiconductor materials. They may reduce the density of free carriers or mediate dopant diffusion and are thus of essential technological importance. Studying the formation of point defects responsible for the occurrence of diffusion and their behavior are of vital importance to the understanding of the properties of these materials and to their successful application in semiconductor devices. Positron annihilation spectroscopy is a powerful tool for detecting and studying the lattice defects in materials. This book is dedicated to investigations of crystal defects in III-V compound semiconductors by means of positron annihilation.
Modification of Al-Si Alloy by Non-Conventional Route Modification of Al-Si Alloy by Non-Conventional Route Новинка

Modification of Al-Si Alloy by Non-Conventional Route

Al-Si hypereutectic alloys find application in small engines, pistons for air conditioning compressors and other components in automatic transmission. They are lightweight and have an outstanding wear resistance, a lower thermal expansion coefficient, and very good casting characteristics. Use of such alloys gets limited because of the presence of extremely hard primary silicon phase which reduces its machinability. The present work makes an attempt to improve upon the mechanical properties of Al-17Si hypereutectic alloys by modification of primary silicon and eutectic silicon through non conventional route. The alloys are modified using oxides and chlorides addition. The effect of oxides and chlorides on the morphology and size of Si phases in the hypereutectic Al-Si alloys are investigated. The mechanical properties like hardness, tensile strength and % elongation were observed to increase in modified alloys. The improved properties are dependent on uniform distribution of fine fibrous eutectic Al–silicon and fine primary Si- particles. The results of the work should be useful for academic researchers and others interested in useful information about Al-Si alloys.
Quality of Aluminum-Silicon Casting Alloys Quality of Aluminum-Silicon Casting Alloys Новинка

Quality of Aluminum-Silicon Casting Alloys

Quality indices and quality charts were used as evaluation tool for selecting the optimum conditions to be applied in practice in order to develop superior tensile properties and optimum quality in Al-Si casting alloys. The right alloy quality in engineering applications involves reaching a suitable compromise between numerous factors so as to present the maximum performance combined with cost efficiency. Alloy composition, solidification rate, and heat treatment procedures, are all parameters which closely affect alloy quality since they also influence the tensile properties of the casting. The quality of aluminum alloy castings may be defined using numerical values which correlate to their mechanical properties. Several models were proposed to correlate the quality of the Al-Si castings to the mechanical properties of these alloys.
Evolution Of Metals/Alloys Used In Prosthodontics Evolution Of Metals/Alloys Used In Prosthodontics Новинка

Evolution Of Metals/Alloys Used In Prosthodontics

This book reveals the history of metals and alloys and their importance in prosthodontics. This book covers the review of literature, classification, discuss the metals and alloys and also the recent alloys used in prosthodontics.This book also revels the recent classification of the alloys according to ADA. This book explains each alloys properties,uses, compositions, advantages and disadvantages of each alloy.
Semiconductor Clusters Semiconductor Clusters Новинка

Semiconductor Clusters

Semiconductor clusters have one extraordinarily important property that on doping and on changes in size, their properties change appreciably and in a controllable way. Current research into semiconductor clusters is focused on the properties of thin films having nanometre range grain size. The wide range of optical and electrical properties of II-VI group compounds make them an important class of materials and competing candidates for silicon and other semiconductor materials in photovoltaic and optoelectronic applications. In this monograph, the structural, spectroscopic and optoelectronic properties of Cadmium Sulfide, Cadmium Telluride and Zinc Oxide thin films are studied in detail. The effects of substrate and grain size on structural and optical properties of these materials are also discussed. Moreover, the synthesis of CdS nanoparticles and fabrication of ZnO thin films by the sol-gel methods and their spectroscopic characterization are described. The ab-initio DFT calculations are carried for the computations of the DOS and band structures of the CdS hexagonal wurtzite, CdTe zinc blende and ZnO hexagonal wurtzite. Effect of Cd dopping in ZnO is also studied theoretically.
Rapid solidification technology and lead free solder alloys Rapid solidification technology and lead free solder alloys Новинка

Rapid solidification technology and lead free solder alloys

The present book included three of the published papers, which have been chosen in CSA's Mechanical & Transportation Engineering Abstracts Database, America, 2005. Also, one of the published paper has the name of " New lead free solder alloy". Also one paper has been published in Key to metals,2012. In this book, we explained some basic concepts of metallic alloys, types and applications of metallic alloys. Furthermore we explained the types of solder alloys. In addition, illustration the importance of the rapid solidification technology that is used for producing alloys with improved properties.
The effect of (Cr,Ni,Mg) as modifying elements on Al-Si alloys The effect of (Cr,Ni,Mg) as modifying elements on Al-Si alloys Новинка

The effect of (Cr,Ni,Mg) as modifying elements on Al-Si alloys

Aluminum is considered as one of the most important metals for its countless applications in the real life. Even though, pure Aluminum has undesirable properties such as its ductility, high wear rate and poor hardness. These properties could be improved by the addition of alloying elements to pure Aluminum or even by adding some modifying elements to its alloys.As most studies on this field, our project was held in order to study Al-Si alloys properties and the effect of adding some modifying elements to the alloys in order to attain new materials with more desirable properties.
Investigation of defects in Fe3Al-based alloys by PAS Investigation of defects in Fe3Al-based alloys by PAS Новинка

Investigation of defects in Fe3Al-based alloys by PAS

Positron annihilation spectroscopy is non-destructive method for studying defects in solid state materials. Binary alloys of iron and aluminium are industrially interesting materials and are suitable candidate for studying the behavior of intermetallics with vacancy concentrations several orders higher than in pure metals. Measuring of the positron lifetime enables to classify defects type, volume size and concentration. Measuring of coincidence Doppler broadening of annihilation peak carries information about chemical environment of a positron trapped at the defect. These measurements are supported by quantum-mechanics theoretical calculations which help us to interpret the measured data. Mechanical properties were studied simultaneously by the measuring of Vickers microhardness and compared with the positron annihilation spectroscopy results. The correlation of defect concentration with mechanical properties was observed in Fe-Al alloys with various composition and after various thermal treatments.
Study the Effect of Welding Tool Profile on AA2024-T351 Welded by FSW Study the Effect of Welding Tool Profile on AA2024-T351 Welded by FSW Новинка

Study the Effect of Welding Tool Profile on AA2024-T351 Welded by FSW

This book investigates the effect of tool pin profile on the mechanical properties of aluminum alloys AA2024-T351 joints produced by friction stir welding. Four different tool pin profiles were developed, there are straight cylindrical, step cylindrical, straight triple-sided prism, and straight square block which were used to weld the joints. All the welds were produced perpendicularly to the rolling direction for aluminum alloys. Tensile and bending tests were performed to evaluate the mechanical properties by using computerized universal testing machine. Among the four tools, straight square block pin profile gives better mechanical properties. Statistical analysis was applied for obtaining mathematical models that relate the mechanical responses; elongation, tensile strength, and maximum bending force, with the input parameters; welding speed and rotational speed, to verify the adequacy of these models.
Fabrication and physical properties of CdS, ZnTe and ZnSe thin films Fabrication and physical properties of CdS, ZnTe and ZnSe thin films Новинка

Fabrication and physical properties of CdS, ZnTe and ZnSe thin films

The II-VI compound semiconductor thin films (CdS, ZnTe and ZnSe) have been prepared by different methods such as electron beam vacuum evaporation, closed space sublimation and two-sourced thermal evaporation. The effects of deposition parameters are discussed in detail, structural, optical and electrical properties have been studied. In spite of that the main goal is to get comparatively high electrical conductivity of the films, the optical properties of the films were also very important from the application point of view. For reducing the resistivity of II-VI group semiconductor thin films, doping with different materials were performed using an ion exchange method. These films have been doped with (Cu, Ag) dopant to make it p-type. The ion exchange parameters such as solution temperature, concentration and immersion time, and its effect on the speed of the process and further on the status of the resulting films was carefully determined and analyzed. Also the effect of post heat treatment, on the physical properties and the composition of the resulting films are discussed in detail.
Study of Crystal Properties of Rare-Earths and Semiconductors Study of Crystal Properties of Rare-Earths and Semiconductors Новинка

Study of Crystal Properties of Rare-Earths and Semiconductors

It is a book based on first principles calculations of various crytal properties of some Rare earth compounds along with III-V semicondutors. The electronic, mechanical, structural and magnetic properties of these compounds have been studied at ambient as well as at high pressures. The present theoretical results are in good agreement with the experimental data and better than those obtained by other earlier workers by different methods. Few of the materials show semi-metallic while some others are showing semiconducting nature. These Rare earth materials show polymorphic phase transformation from B1 to B2, B3 to B1 phase. Some Rare earth also show iso-structural electronic transformation before polymorphic transformation. The Rare earth compounds are found to be magnetic at ambient pressures.
On the study of physical properties of some heterojunctions On the study of physical properties of some heterojunctions Новинка

On the study of physical properties of some heterojunctions

The study of heterojunctions is one of the key research areas in solid state physics which has known a strong development in fundamental research and technological applications. Worldwide, the study of semiconductors is of real interest for both, scientists and forums that subsidize research. ZnTe/CdSe thin films heterojunctions make some photovoltaic devices at a low production cost. ZnTe is an important material in solar cell technology with semiconductor heterojunctions also because it has a high energy band gap. CdSe thin films are used to produce solar cells with semiconductor heterojunctions. This work is a study on the structure, optical and electrical properties of CdSe and ZnTe thin films, respectively the structure, optical and photoelectric properties of some heterojunction of the type ZnTe/CdSe.
Henry VI (Parts I, II and III) Henry VI (Parts I, II and III) Новинка

Henry VI (Parts I, II and III)

Henry VI (Parts I, II and III)
Development of Damping Multiple Alloyed Steels Development of Damping Multiple Alloyed Steels Новинка

Development of Damping Multiple Alloyed Steels

Properties of iron-carbon alloys are determined by chemistry and chemical structure, which are results of material getting and its further working. For developing of materials and technologies, it is necessary to know physical and chemical phenomena and processes, passing in materials on different stages of its getting, working and running, its prediction, description and control by them. Therefore research studies are relevant in the sphere of metallurgy and science of materials, which are directed to making of materials with sufficient damping and soundproof properties. In this connection substantiation and working of alloyed damping alloys for details, working in impact mode is very important.In the book the questions on the development of multiple alloyed steels, the influence of chemical composition on the damping properties of alloys, methods of investigation of physical-mechanical characteristics of alloys, the types of treatment, the types of devices to study materials on sound insulation, the acoustic characteristics of materials, measurement of acoustic damping alloys and complexly etc.
Sintering of Aluminum Alloys: Microwave and Conventional Sintering of Aluminum Alloys: Microwave and Conventional Новинка

Sintering of Aluminum Alloys: Microwave and Conventional

Most of the powder metallurgical research on particulate aluminum alloys has been focused on optimizing composition. However, the role of process parameters on sinterability of prealloyed powders still remains to be critically evaluated. First part of the study logically evaluates the effect of sintering atmosphere (nitrogen, argon and vacuum) and temperature on sintered density, electrical, electrochemical and mechanical properties of Al-Cu-Mg, Al-Mg-Si and Al-Zn-Mg alloys. The effect of heat treatment (T4, T6 and T8 tempers) on microstructure and properties was also investigated. In an attempt to make the process less energy intensive and control the grain growth at higher temperature, in second part of the study, higher heating rates were implemented using multimode microwave (2.45 GHz and 6kW) furnace. Microstructural changes and properties were compared between microwave and conventional heated compacts. This book should help to shed some knowledge on new processing technologies, interaction of microwave with conductive materials and especially useful to researchers, professionals and students working in the field of aluminum powder metallurgy and microwave processing.
Hybrid Silicon Laser: The Future of Electronics Hybrid Silicon Laser: The Future of Electronics Новинка

Hybrid Silicon Laser: The Future of Electronics

A hybrid silicon laser is a semiconductor laser fabricated from both silicon and group III-V semiconductor materials. The hybrid silicon laser was developed to address the lack of a silicon laser to enable fabrication of low-cost, mass-producible silicon optical devices. The hybrid approach takes advantage of the light-emitting properties of III-V semiconductor materials combined with the process maturity of silicon to fabricate electrically driven lasers on a silicon wafer that can be integrated with other silicon photonic devices. This book demonstrates the silicon evanescent laser, amplifier, modulator, photo detector and pre amplified photo detector individually and how these individual photonic components can be integrated together to form an optoelectronic device. A device that can make tera scale computing a reality.
Effect of Composition in As-Cast and Homogenized Al-Si-Cu Alloys Effect of Composition in As-Cast and Homogenized Al-Si-Cu Alloys Новинка

Effect of Composition in As-Cast and Homogenized Al-Si-Cu Alloys

Aluminium alloys with a wide range of properties are used in engineering structures. These properties can be largely modified by changing the alloy composition and by cold working. Si, Cu, Zn and Mg are the most commonly used alloying elements in aluminium, which have sufficient solid solubility. The as-cast microstructure of cast aluminium alloys normally displays significant segregation and supersaturation. For this, homogenization of aluminium alloys is often done to improve workability and mechanical properties. This book is based on the research about influence of Cu content, cold working and homogenization in Al-Si alloys. The effects were analysed using microstructure study, phase-property modelling, image analysis and hardness measurement. This work should help researchers and metallurgists who are working on modification of alloy properties. Also it will help students who have keen interest in study of microstructure, modelling and image analysis.
John Gilman J. Chemistry and Physics of Mechanical Hardness John Gilman J. Chemistry and Physics of Mechanical Hardness Новинка

John Gilman J. Chemistry and Physics of Mechanical Hardness

A comprehensive treatment of the chemistry and physics of mechanical hardness Chemistry and Physics of Mechanical Hardness presents a general introduction to hardness measurement and the connections between hardness and fundamental materials properties. Beginning with an introduction on the importance of hardness in the development of technology, the book systematically covers: Indentation Chemical bonding Plastic deformation Covalent semiconductors Simple metals and alloys Transition metals Intermetallic compounds Ionic crystals Metal-metalloids Oxides Molecular crystals Polymers Glasses Hot hardness Chemical hardness Super-hard materials Chemistry and Physics of Mechanical Hardness is essential reading for materials scientists, mechanical engineers, metallurgists, ceramists, chemists, and physicists who are interested in learning how hardness is related to other properties and to the building blocks of everyday matter.
Non Ferrous Alloys Non Ferrous Alloys Новинка

Non Ferrous Alloys

Summary: Materials are the essential part of our daily life and civilizations have been known by the materials they introduced. As the science progressed, scientists used the different combinations of material to enhance their properties to cope with new challenges and requirements. Alloys are also the combination of different materials specifically of metals. In early ages Iron and their alloys were used in the manufacturing heavy machineries. Gradually elements of lighter weight replaced the ferrous material like Alloys of Mg and Al. The main focus of this book will be on Aluminum Alloys specifically on Aluminum Alloy 2024. Aluminium alloys called super alloys because of their preferable mechanical and chemical properties for wide range of applications and uses. 2024 aluminium alloy was fabricated by taking percentage weight composition of Al-Cu-Mg-Zn.Corrosion tests were performed in 0.1M NaCl, 1% aqua regia and 5% aqua regia, 1% Potassium Dichromate solution and weight change was recorded in different intervals of time. Corrosion rate was studied by using Atomic Absorption Spectroscopy and morphological studies was accomplished by using Optical Microscopy.
Shape Memory Alloys Shape Memory Alloys Новинка

Shape Memory Alloys

Shape Memory Alloys include a wide range of various materials. These materials exhibit unique properties including thermal (shape memory effect) and mechanical (pseudoelasticity) memory, whereas both these characteristics depend on the martensitic phase transformation and diffusion-free transformation of the solid state. One of the main reasons is their attractiveness due to shape memory and pseudoelastic properties, excellent biocompability and high corrosive resistance. The most attention (even today) goes to Ni-Ti and Ni-Ti-Me systems, where Me represents another alloying element. This book covers mainly Ni-Ti based materials. Alloys from these systems have characteristic features of long-range structure, thermoelastic martensite and crystallographic reversible phase transformations. This book is focused on fabrication, conventional as well as non-conventional forming techniques. Among others there are stated methods for transformation temperatures measurement and evaluation of microstructural characteristic.
Photo-Mechnical Effect Photo-Mechnical Effect Новинка

Photo-Mechnical Effect

The study of the properties of charged dislocations in semiconductor crystal is now a large independent field of semiconductor physics. Latest investigations indicate that changes in the electronic subsystem of II-VI semiconductors significantly effect the motion of dislocation.The photoplastic effect in crystalline materials has been extensively investigated over the last two decades. The phenomena of photoplastic effect (PPE), photoplastic after-effect (PPAE) and photoplastic memory effect (PPME) have attracted a lot of attention for the last four decades. A systematic measurement of PPE and PPAE has been made on alkali halides, I-VII compounds, II-VI semiconductors, III-V semiconductors, group IV semiconductors, and on several organic materials, particularly on polymers.Although significant experimental works have been made on the photoplastic effect, least theoretical studies have been made on this.It is expected that this book will be useful to understand the influence of electronic states on the crystal plasticity and the basic process involved in the degradation in the electronic devices.
Dendritic Microstructure of Directionally Cast Al and Mg Alloys Dendritic Microstructure of Directionally Cast Al and Mg Alloys Новинка

Dendritic Microstructure of Directionally Cast Al and Mg Alloys

The present book investigates the spacing and orientation selection in directional solidification of Aluminum and Magnesium alloys under transient growth conditions, which represent the conditions dominant in industrial casting. Dendritic spacing and morphology established during casting often sets the scales of the downstream microstructure during manufacturing of alloys. This is particularly true in emerging technologies such as twin belt casting. The mechanical and physical properties of alloys are thus highly dependent on the morphology established during solidification. It is shown both experimentally and through phase field modeling that the previously obtained geometrical models to predict the dendrite spacing is not valid under transient growth. Instead, the initial conditions and history of the growth highly influence the final spacing. The orientation selection of hexagonal dendrites is discussed in chapter four.
Functional Properties of Semiconductor Nanostructures Functional Properties of Semiconductor Nanostructures Новинка

Functional Properties of Semiconductor Nanostructures

This book introduces nanoscale modelling and simulation by employing molecular dynamics and density functional theory for semiconductor nanostructures: gallium nitride and zinc oxide, for their functional properties. Novel synthesis technique has been adopted to achieve undoped and doped nanostructures of zinc oxide for their novel optical and luminescence properties and the results are compared with density functional theory calculations.
The electrochemical production of thin films of rhenium chalcogenides The electrochemical production of thin films of rhenium chalcogenides Новинка

The electrochemical production of thin films of rhenium chalcogenides

This book provides an electrochemical production of semi-conductor thin films of rhenium chalcogenide alloys. In the work mechanism and kinetics of rhenium-selenium alloy deposition process from acidic and alkaline Re-Te solutions and Re-S from thiocarbamide solutions were studied. Main regularities of co-deposition process, nature and character of rhenium chalcogenides polarization from solutions were researched. Some physical and electro-physical properties of rhenium alloys were studied. Photo-electrochemical activity of thin films on the basis of Re-Se alloys was studied and these thin films can be used as a photo-electrode material for conversion of solar energy into chemical. This book is a useful guide for students and scientists working on electrochemistry
Degallaix-Moreuil Suzanne Duplex Stainless Steels Degallaix-Moreuil Suzanne Duplex Stainless Steels Новинка

Degallaix-Moreuil Suzanne Duplex Stainless Steels

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Duplex Stainless Steels (DSSs) are chromium-nickel-molybdenum-iron alloys that are usually in proportions optimized for equalizing the volume fractions of austenite and ferrite. Due to their ferritic-austenitic microstructure, they possess a higher mechanical strength and a better corrosion resistance than standard austenitic steels. This type of steel is now increasing its application and market field due to its very good properties and relatively low cost. This book is a review of the most recent progress achieved in the last 10 years on microstructure, corrosion resistance and mechanical strength properties, as well as applications, due to the development of new grades. Special attention will be given to fatigue and fracture behavior and to proposed models to account for mechanical behavior. Each subject will be developed in chapters written by experts recognized around the international industrial and scientific communities. The use of duplex stainless steels has grown rapidly in the last 10 years, particularly in the oil and gas industry, chemical tankers, pulp and paper as well as the chemical industry. In all these examples, topics like welding, corrosion resistance and mechanical strength properties (mainly in the fatigue domain) are crucial. Therefore, the update of welding and corrosion properties and the introduction of topics like texture effects, fatigue and fracture strength properties, and mechanical behavior modeling give this book specific focus and character.
Chemical and mechanical properties of Zirconia doping on glass ceramic Chemical and mechanical properties of Zirconia doping on glass ceramic Новинка

Chemical and mechanical properties of Zirconia doping on glass ceramic

Glass-ceramics in the SiO2-Al2O3-CaO-MgO system have been widely investigated for its various useful properties like low cost, superior mechanical strength, good chemical durability and excellent wear resistance. Diopside CaO-MgO- 2SiO2 crystalline phase generally precipitates in SiO2-Al2O3-CaO-MgO system which has desirable mechanical strength that may also be machined to some extent. Diopside (CaMgSi2O6) glassceramics are well known for their mechanical and electrical properties, i.e., high mechanical strength, low dielectric constant, high quality factor and low temperature sinterability.
Fathi Habashi Alloys. Preparation, Properties, Applications Fathi Habashi Alloys. Preparation, Properties, Applications Новинка

Fathi Habashi Alloys. Preparation, Properties, Applications

In industry very few metals are used in their pure form; the majority are employed as a combination of a metal with other metals, nonmetals or metalloids. In this way some specific properties are improved, making the alloy more attractive than the pure metal. The present work comprises essential information on alloys in one compact volume. Classification, properties, preparation, applications, and economic aspects are discussed for alloy steels, primary-metal alloys, light-metal alloys, and some other alloy systems. The work is based on more than 30 articles from Ullmann's Encyclopedia of Industrial Chemistry and represents the effort of over 60 specialists. It supplies hundreds of top-quality illustrations, diagrams, and charts and provides hand-picked references for further study. An introductory overview of the subject is provided by the editor. The book is a handy yet authoritative reference work for the practicing metallurgist, but also for physical metallurgists, engineers and scientists in industry.
Extrusion of Magnesium-Zinc based alloys Extrusion of Magnesium-Zinc based alloys Новинка

Extrusion of Magnesium-Zinc based alloys

In this work, the influence of the additions of Zn, Zr and Ce-Mischmetall on the casting, indirect extrusion processing, microstructural development and resulting mechanical properties of Mg and Mg-alloys were investigated. It was found that grain size of the cast alloys is controlled by a grain growth factor (Q) mechanism. Q predicts the grain size of the cast billet, a parameter which influenced strongly the deformation response of the alloy during extrusion. Zener-Hollomon parameter (Z) was determined using process variables. Z correlated alloy dependent deformation variables during extrusion with the resulting average recrystallised grain size. Texture measurements revealed a singular recrystallisation development. Obtained results show correlations between initial alloy conditions and process variables indicating that the resulting microstructure and mechanical properties can be estimated by an appropriate set-up of selected alloy compositions and process parameters. Most of these correlations were based on proved phenomenological assumptions, which make them reliable values of reference for additional research and development of Mg wrought alloys.
FDI In Retail Sector And Its Benefits FDI In Retail Sector And Its Benefits Новинка

FDI In Retail Sector And Its Benefits

FDI in Retail Sector is burning topic not only for India but for the world. The whole book is divided in eight chapters : (i) Introduction (ii) FDI in Retail Sector and Its Benefits (iii) Advocacy of FDI by various corners with some reforms (iv) History and growth of FDI (v) Single and multi branding (vi) Some important definitions (vii) Types of Retailers (viii) Conclusion This book is written in very short in capsule size, in a simple and easily understandable language with many examples and case studies. The conclusions and recommendations of the book will be of tremendous importance to the policy makers, scholars, researchers and students of the subject of commerce, economics, management and also traders and Businessmen. To the best of my knowledge this book is likely to be a novel and pioneering study among the various studies.
Research in Polymer / clay nanocomposite, the Ghanaian discovery Research in Polymer / clay nanocomposite, the Ghanaian discovery Новинка

Research in Polymer / clay nanocomposite, the Ghanaian discovery

Polymer/clay nanocomposites are materials that possess unique properties. These properties are enhanced properties of the polymer matrix. Some of the improved properties are thermal stability, permeability to gases, flammability,mechanical strength and photo-degradability. At complete dispersion of the clay layers in the polymer matrix, these enhanced properties are obtained. The unique properties of the material makes it suitable in applications as, food and beverage packaging, automobile parts, furniture, carrier bags, electrical gadgets and so on.
The Hybridization of III-V and Si Photonics The Hybridization of III-V and Si Photonics Новинка

The Hybridization of III-V and Si Photonics

Self-assembled III-V quantum dots attract intense research interest and effort due to their unique physical properties arising from the three-dimensional confinement of carriers and discrete density of states. Semiconductor III-V quantum-dot laser structures exhibit dramatically improved device performance in comparison with their quantum well counterparts, notably their ultra low threshold current density, less sensitivity to defects and outstanding thermal stability. Therefore, integrating a high-quality quantum-dot laser structure onto silicon-based platform could potentially constitute a hybrid technology for the realization of optical inter-chip communications. This book is devoted to the development of high-performance InAs/GaAs quantum-dot lasers directly grown on silicon substrates and germanium substrates for silicon photonics.
Vibrational properties of silicon nanowires Vibrational properties of silicon nanowires Новинка

Vibrational properties of silicon nanowires

The building block of today's digital world is based on the silicon technology. Moreover, Si is widely available, well studied and therefore will remain a very important part of digital technologies. In recent years the synthesis of semiconductor materials, structures and devices with dimensions ranging from a few angstroms to several nanometers, by a number of techniques brings a new quality in the miniaturization of such semiconductor structures. The Si nanostructures show different mechanical, electrical and optical properties compared to the bulk Si. An interesting aspect of confinement is that through varying of the size of the materials, their physical properties can be tuned. The possible future application of silicon nanowires (SiNWs) is conditional upon the studying of its mechanical, electrical and optical properties. In this work the elastic properties, such as the bulk modulus and isothermal compressibility and the thermal properties of SiNWs were studied by means of Raman spectroscopy, accompanied by transmission electron microscopy.
Thermo and Mechano luminescence studies of II-VI semiconductors Thermo and Mechano luminescence studies of II-VI semiconductors Новинка

Thermo and Mechano luminescence studies of II-VI semiconductors

Present work shows Thermoluminescence and Mechanoluminescence characteristics of II-VI semiconductors. Evaluation of kinetic parameters and different models for thermoluminescence as well as mechanoluminescence studies. Modeling of the rise and decay of elastico mechanoluminescence of II-VI semiconductors has been done. The plots obtained from the modeling are similar to that obtained from EML measurements.
Organic Semiconductor Electromechanical Sensors Organic Semiconductor Electromechanical Sensors Новинка

Organic Semiconductor Electromechanical Sensors

Semiconductor electromechanical sensors are used widely in industry, space technology, environmental monitoring and assessment and many other applications. Therefore, organic semiconductor materials based devices have been the subject of intense investigation in the past few years due to their low cost, simplicity of devices fabrication, and interesting electrical and optical properties. This book is compiled in collaboration by the Tajikistan and Pakistani scientists based on the result of research of organic semiconductors, properties of conductors and devices that are described in order to provide awareness and highlight the importance of this field of technology for future development of electromechanical sensors. This book is devoted to electric properties of organic semiconductors and conductors, organic pressure, displacement and strain sensors based on complexes and composites, including nanomaterials and will be useful to students, teachers, researches, engineers, technicians and to everybody interested in organic solid state electronics.
Binding and compaction properties of microcrystalline potato starch Binding and compaction properties of microcrystalline potato starch Новинка

Binding and compaction properties of microcrystalline potato starch

Acid hydrolysis is a process of modifying starch by treatment with a mineral acid and heat at sub-gelatinization temperature leading to changes in its physicochemical properties. Sequel to these changes, there might be changes in the binding, compression and mechanical properties of the starch. Emmanuel Olorunsola’s book titled “Binding and compaction properties of microcrystalline potato starch” gives details of microcrystalline starch production by acid hydrolysis of sweet potato starch; and determination of its physicochemical, binding, compression and mechanical properties and comparing these with those of native sweet potato starch, maize starch B.P. and polyvinyl pyrrolidone in chloroquine tablet formulations. The binding, compression and mechanical properties of the binders were found to be directly related to their physicochemical properties.
ZnO thick films Gas Sensor ZnO thick films Gas Sensor Новинка

ZnO thick films Gas Sensor

Solid state gas sensors have proved to be very promising for monitoring the emission of air pollutant and toxic gases because they are a low cost element. Zinc oxide (ZnO) is II-VI compound semiconductor with a wide direct band gap of 3.37eV and a hexagonal structure. ZnO is often used in photovoltaic, gas sensor application, varistors, surface acoustic wave devices, electric transducers, piezoelectric materials and room temperature ultraviolet lasing.The objectives of this project are to study the structural, electrical and gas sensing properties of undoped ZnO thick films, to study the relationship of doping with structural, electrical and gas sensing properties of doped ZnO films with Cr2O3, Nb2O5, Al and Cu as a dopant.
Al-CO and Al-Cu alloys using Pseudo potential theory Al-CO and Al-Cu alloys using Pseudo potential theory Новинка

Al-CO and Al-Cu alloys using Pseudo potential theory

The present work embody the theoretical investigation of certain properties of Aluminum with transition metal binary alloy with different concentration using pseudopotential theory.we have investigated elastic and electronic transport properties of Al-Co and Al-Cu alloy.as the industrial demands some excellency in the field of material this theoretical work helps to verify the possibilities to grow experimental establishment.
Cerrobend Metal and it's Applications Cerrobend Metal and it's Applications Новинка

Cerrobend Metal and it's Applications

This work aims to get alloy cerrobend and the study of the physical properties and structural analysis of this alloy low degree fused at 75oC and studies the effect of radiation on components cerrobend in order to make sure of getting good specification alloy for medical and industrial applications. Therefore alloys were divided into three groups: The first group: binary alloys consisting of Bi50-Pb50, Bi45-Sn55, and Bi50 -Cd50 in this group noticed effect of radiation on the physical characteristics and structural analysis of these alloys. The second group: three alloys consisting of Bi40-Pb40-Sn20, Bi40-Pb40-Cd20 and Bi40-Sn40-Cd20 these alloys have noted that the effect of radiation less than binary alloys and this shows the sequence in the selection of the best alloy. The third group: the alloy quaternary and this alloy is the basis of this work and are considered the best alloy obtained consisting of bismuth, lead, tin, cadmium and called (cerrobend) and that have not gets any effects her physical properties as a result of exposure to radiation.
A multiscale approach to mechanical modeling of a leaf petiole A multiscale approach to mechanical modeling of a leaf petiole Новинка

A multiscale approach to mechanical modeling of a leaf petiole

A plant is a natural hierarchical structure, which exhibits remarkable mechanical properties. The macro (scale) mechanical properties of a plant are the cumulative outcome of the structural properties of its preceding level of structural hierarchy. To develop engineering structures inspired by a plant and its organs, a comprehensive characterization of its mechanical properties exhibited at multiple hierarchical orders is essential. This work presents a set of theoretical and computational models at various orders of the structural hierarchy to capture the overall structural properties of a plant petiole. The modeling method is framed within a multiscale mechanics framework, which is essential for any structure displaying hierarchical orders of organization. The macro structural properties, i.e. flexural and torsional stiffness, of a plant petiole are obtained by correlating cell wall construction, tissue microstructure, and structural shape morphology.
Rheological and Mechanical Properties of Some Selected Foods Rheological and Mechanical Properties of Some Selected Foods Новинка

Rheological and Mechanical Properties of Some Selected Foods

Knowledge about the thermal, rheological properties, mechanical properties, textural characteristics and physical properties of food materials have an important role from the stand point of engineering during processing of such materials. So, study of thermal and rheological properties, including determination of rheological and thermal parameters, is very important and the rheological parameters are very essential in designing the required equipments for handling and processing of the food materials. Also viscosity is usually considered an important physical property related to the quality of food products. Viscometric data are also essential for the design evaluation of food processing equipment such as pumps, piping, heat exchangers, evaporators, sterilizes filters and mixtures. Information on the mechanical properties of fruits and vegetables is of use in characterisation of material, fixing optimum time for harvest, separation from undesirable materials, texture and quality evaluation, assessment of the extent and nature of damage in collection, handling, and storage and processing, and identification of basic anatomical structure.
Dental Casting Alloys Dental Casting Alloys Новинка

Dental Casting Alloys

Nowadays, the use of pure metals is quite limited in dentistry because they appear to be soft and may tend to corrode rapidly.To optimize properties, most of the metals commonly used in dental applications are mixtures of two or more metallic elements or one or more metals and/or non-metals. Although such mixtures can be produced in a number of ways. The use of these cast metals has decreased because of increased consumer demand for aesthetics over durability. Knowledge of the structure and properties of cast metals and alloys is essential to ensure proper handling of these materials. Thus this book is a compilation of all dental casting alloys and their applications in clinical dentistry.
Mechanical and Erosion Wear Characterization Mechanical and Erosion Wear Characterization Новинка

Mechanical and Erosion Wear Characterization

This work presents a study of the physical and mechanical properties and erosion wear of traditional and hybrid polyester matrix composites. Traditional and hybrid composites were prepared by Hand lay-up molding and investigated. The composites constituents were unsaturated polyester resin as the matrix, 3% and 6% volume fractions of carbon fibers as reinforcement and 3% of Al2O3, Al, Cement and local Gypsum as filler particles. The investigated physical properties were density, porosity, water absorption and thermal conductivity, while the mechanical properties were hardness, tensile properties, bending modulus of elasticity, shear stress and impact properties (impact strength, fracture toughness). Solid particles erosion wear tests are also carried out. The experimental results showed that increased volume fraction of carbon fibers to (6%) led to increase in physical properties (density, porosity, water absorption and thermal conductivity).
Resin Handbook:How to Select The Mechanical Properties of Proper Resin Resin Handbook:How to Select The Mechanical Properties of Proper Resin Новинка

Resin Handbook:How to Select The Mechanical Properties of Proper Resin

The resins are one of the most versatile polymers under use today. Their use ranges from matrix in high performance composite materials for aerospace structures, to organic coatings and common adhesives for domestic applications. Many researchers have been done on the polyester resins, due to its versatile applications. Some of these researches investigated the mechanical properties of the polyester resins, such as tensile strength, impact resistance compression strength and others, and few of them have been done on the epoxy resins, although the epoxy has different types, easy in use and high mechanical properties. The key goal of this research consists of providing numerical and experimental tools able to predict the mechanical behavior of such two common type of resin are polyester and epoxy resin, which are being increasingly employed in the engineering practice, to select the proper mechanical properties between them. A finite element simulation model can be extended to apply for the tensile test of resin specimens and Study of the mechanical behavior and compare between the numerical results from a finite element simulation model and another one from experimental verification
Processing of Molybdenum and TZM alloy for High Temperature Reactors Processing of Molybdenum and TZM alloy for High Temperature Reactors Новинка

Processing of Molybdenum and TZM alloy for High Temperature Reactors

Scientific and technological challenges associated with the processing of molybdenum and TZM (Mo-0.6Ti-0.2Zr-0.02C) alloy was investigated. The broad objective was to study the (i) kinetics of hydrogen reduction of MoO3 to Mo and morphology of reduced Mo powder, (ii) mechanical alloying and hot isostatic pressing for the preparation of TZM alloy, (iii) densification and grain growth behavior during sintering of Mo and TZM compacts, (iv) fabrication of TZM alloy tube using powder metallurgy route, (v) hot deformation behavior of TZM alloy in 600-900?C, and (vi) development of silicide and alumino-silicide based oxidation resistant coatings on TZM alloy. The experimental procedures and the outcome or results reported in this work would provide a significant basis for the future developmental work on high temperature materials suitable for construction of high temperature power generating reactors.
Wide Bandgap Semiconductor in Thin Film Form and Its Characterizations Wide Bandgap Semiconductor in Thin Film Form and Its Characterizations Новинка

Wide Bandgap Semiconductor in Thin Film Form and Its Characterizations

A detailed review on the structural, optical, chemical and electrical properties of the almost entire group II-VI compound including ZnTe have been presented in this book. Also, a brief discussion of the references through the literature regarding zinc telluride is presenting. A brief review of thin film preparation techniques has also been covered.Preparation of ZnTe thin film using thermal evaporation technique has been discussed. The effects of thickness and substrate temperature on structural, optical, electrical & transport properties have been investigated. Book also includes the overall conclusions drawn from the present investigation, which is followed by the future scope of work.
Ward Ian M. Mechanical Properties of Solid Polymers Ward Ian M. Mechanical Properties of Solid Polymers Новинка

Ward Ian M. Mechanical Properties of Solid Polymers

11130.17 руб. Найти похожее
Providing an updated and comprehensive account of the properties of solid polymers, the book covers all aspects of mechanical behaviour. This includes finite elastic behavior, linear viscoelasticity and mechanical relaxations, mechanical anisotropy, non-linear viscoelasicity, yield behavior and fracture. New to this edition is coverage of polymer nanocomposites, and molecular interpretations of yield, e.g. Bowden, Young, and Argon. The book begins by focusing on the structure of polymers, including their chemical composition and physical structure. It goes on to discuss the mechanical properties and behaviour of polymers, the statistical molecular theories of the rubber-like state and describes aspects of linear viscoelastic behaviour, its measurement, and experimental studies. Later chapters cover composites and experimental behaviour, relaxation transitions, stress and yielding. The book concludes with a discussion of breaking phenomena.
Gupta Manoj Magnesium, Magnesium Alloys, and Magnesium Composites Gupta Manoj Magnesium, Magnesium Alloys, and Magnesium Composites Новинка

Gupta Manoj Magnesium, Magnesium Alloys, and Magnesium Composites

A look at the current and future uses of magnesium-based products and their role in the world's environmental and technological revolution The lightest of all structural metals, having one-fourth the density of steel and two-thirds that of aluminum, magnesium has already been adopted as an alternative construction material in applications as far ranging as automotive and sports equipment, electronics, and space technology. In a world concerned with minimizing the environmental impact of products, the choice of light-weight, energy-saving, and high-performance materials, like magnesium, would seem a small, significant step towards improving life on this planet. Magnesium, Magnesium Alloys, and Magnesium Composites introduces the science and current applications of this important metal, shedding light on the magnesium-based composites developed over the last fifteen years. Chapters include in-depth discussion of: The characteristics of pure magnesium—including atomic properties and crystal structure as well as physical, electrical, and mechanical properties Magnesium alloys—and the effects of the alloying elements, such as aluminum, lithium, copper, nickel, and silicon The properties of magnesium-based composites—and the effects of different types (metallic, ceramic, interconnected, and intermetallic) of reinforcements of varying length (from micron scale to nanometric length) Corrosion aspects of magnesium-based materials Magnesium-based products in medicine, sports equipment, and the automotive, aerospace, and electronics industries Bringing together, for the first time, the science, properties, and technologies relating to the current and future uses of magnesium, this important reference also offers readers a glimpse of a not-too-distant world in which environmental safety and sound engineering are a reality.
Properties of Niobium Sulphoselenide single crystals Properties of Niobium Sulphoselenide single crystals Новинка

Properties of Niobium Sulphoselenide single crystals

The properties of materials having lamellar structure have been studied for last few years. Some elements, oxides, hydroxides, halides, chalcogenides and other various complex systems exhibit the lamellar structure. Many of these materials are found in nature and remaining can be synthesized in the laboratory. Layered structure (lamellar) solids of transition metal dichalcogenides have been extensively studied. Among these the binary II-VI compounds with Nb as cation and S / Se as anion form a very interesting class of lamellar semiconductors. Transition metal dichalcogenides exhibit fascinating properties due to their van der waals bonded layered structure, including charge density wave instabilities.

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A look at the current and future uses of magnesium-based products and their role in the world's environmental and technological revolution The lightest of all structural metals, having one-fourth the density of steel and two-thirds that of aluminum, magnesium has already been adopted as an alternative construction material in applications as far ranging as automotive and sports equipment, electronics, and space technology. In a world concerned with minimizing the environmental impact of products, the choice of light-weight, energy-saving, and high-performance materials, like magnesium, would seem a small, significant step towards improving life on this planet. Magnesium, Magnesium Alloys, and Magnesium Composites introduces the science and current applications of this important metal, shedding light on the magnesium-based composites developed over the last fifteen years. Chapters include in-depth discussion of: The characteristics of pure magnesium—including atomic properties and crystal structure as well as physical, electrical, and mechanical properties Magnesium alloys—and the effects of the alloying elements, such as aluminum, lithium, copper, nickel, and silicon The properties of magnesium-based composites—and the effects of different types (metallic, ceramic, interconnected, and intermetallic) of reinforcements of varying length (from micron scale to nanometric length) Corrosion aspects of magnesium-based materials Magnesium-based products in medicine, sports equipment, and the automotive, aerospace, and electronics industries Bringing together, for the first time, the science, properties, and technologies relating to the current and future uses of magnesium, this important reference also offers readers a glimpse of a not-too-distant world in which environmental safety and sound engineering are a reality.
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