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دانلود کتاب High-Entropy Alloys
دانلود کتاب آلیاژهای با آنتروپی بالا
مشخصات کتاب
High-Entropy Alloys
ویرایش: 2 نویسندگان: B. S. Murty, Jien-Wei Yeh, S. Ranganathan, P. P. Bhattacharjee سری: ISBN (شابک) : 9780128160671, 0128160675 ناشر: Elsevier سال نشر: 2019 تعداد صفحات: 371 زبان: English فرمت فایل : PDF (درصورت درخواست کاربر به PDF، EPUB یا AZW3 تبدیل می شود) حجم فایل: 36 مگابایت
قیمت کتاب (تومان) : 32,000
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توضیحاتی در مورد کتاب آلیاژهای با آنتروپی بالا
آلیاژهای با آنتروپی بالا، ویرایش دوم بررسی کاملی از وضعیت فعلی زمینه آلیاژهای آنتروپی بالا (HEA) ارائه میکند. بر اساس اولین نسخه، این نسخه کاملاً به روز شده شامل درک نظری جدیدی از این مواد است، که پیشرفتهای اخیر در مدلسازی و کلاسهای جدید HEAها، مانند HEAs Eutectic و HEAهای فاز دوگانه را برجسته میکند. آلیاژهای آنتروپی بالا به دلیل خواص منحصر به فرد خود توجه قابل توجهی از سوی دانشگاهیان و فناوران را به خود جلب کرده اند. این کتاب دانش بنیادی، طیف سیستمهای آلیاژی مختلف و ویژگیهای آنها، حوزههای تمرکز کلیدی و حوزه آینده این رشته را از نظر کاربردهای تحقیقاتی و فناوری ارائه میکند.
توضیحاتی درمورد کتاب به خارجی
High-Entropy Alloys, Second Edition provides a complete review of the current state of the field of high entropy alloys (HEA). Building upon the first edition, this fully updated release includes new theoretical understandings of these materials, highlighting recent developments on modeling and new classes of HEAs, such as Eutectic HEAs and Dual phase HEAs. Due to their unique properties, high entropy alloys have attracted considerable attention from both academics and technologists. This book presents the fundamental knowledge, the spectrum of various alloy systems and their characteristics, key focus areas, and the future scope of the field in terms of research and technological applications.
فهرست مطالب
封皮1 Front Matter Copyright_2019_High-Entropy-Alloys Copyright Foreword-for-the-second-edition_2019_High-Entropy-Alloys Foreword for the second edition Foreword-for-the-first-edition_2019_High-Entropy-Alloys Foreword for the first edition Preface-for-the-second-edition_2019_High-Entropy-Alloys Preface for the second edition Preface-for-the-first-edition_2019_High-Entropy-Alloys Acknowledgments-for-the-second-edition_2019_High-Entropy-Alloys Acknowledgments for the second edition Acknowledgments-for-the-first-edition_2019_High-Entropy-Alloys Acknowledgments for the first edition List-of-abbreviations_2019_High-Entropy-Alloys List of abbreviations 1.A brief history of alloys and the birth of high-entropy alloys A brief history of alloys and the birth of high-entropy alloys Introduction The coming of alloys Special alloys and composites Intermetallics and quasicrystals Metallic glasses Composites The coming of multicomponent HEAs Karl Franz Achard Brian Cantor Jien-Wei Yeh Srinivasa Ranganathan The scope of this book 2.High-entropy alloys basic concepts High-entropy alloys: basic concepts Introduction Classification of phase diagrams and alloy systems Definition of HEAs Composition notation Four core effects of HEAs High-entropy effect Severe lattice distortion effect Sluggish diffusion effect Cocktail effect 3.Physical metallurgy of high-entropy alloys Physical metallurgy of high-entropy alloys Introduction Diffusion behavior Phase transformations Compositional effect Processing conditions Predictive approaches for phase stability Deformation behavior General experimental observations Key underlying phenomena Alloy design and microstructure control 4.Alloy design and phase selection rules in high-entropy alloys Alloy design and phase selection rules in high-entropy alloys Introduction Predicting solid solubility from Hume-Rothery rules Mutual solubility and phase formation tendency in HEAs Parametric approaches to predict crystalline solid solution and metallic glass Criteria for glass formation Thermodynamic parameters to predict the formation of solid solution and metallic glass Kinetic approach to predict the formation of solid solution and metallic glass Pettifor map approach to predict the formation of IM, quasicrystal, and glass Phase separation approach to find single-phase HEAs 5.Alloy design in 21st century ICME, materials genome, and AI strategies Alloy design in the 21st century: ICME, materials genome, and artificial intelligence strategies Introduction Integrated computational materials engineering CALPHAD method Ab initio calculations MD simulation MC simulation Phase-field modeling The advent of artificial intelligence 6.Synthesis and processing Synthesis and processing Introduction Liquid metallurgy route Additive manufacturing Solid state processing route Carbothermal shock (CTS) synthesis Combinatorial materials synthesis 7.Solid solution phases and their microstructures in HEAs Solid solution phases and their microstructures in HEAs Introduction Solid solution formation in equiatomic HEAs Solid solutions with BCC structure Solid solutions with FCC structure Mixture of FCC and BCC solid solution phases Solid solutions with HCP structure Solid solution formation in nonequiatomic HEAs Effect of aluminum addition Effect of transition metals (Co, Cr, Cu, Mo, Ni, Ti and V) and other elements Microstructure of HEAs Thermal stability of HEAs 8.Special subgroups of high-entropy alloys Special subgroups of high-entropy alloys Introduction Transition metal HEAs Eutectic HEAs Noble metal HEAs High entropy superalloys Refractory HEAs Other HEA families Intermetallic compounds B2 phase L12 phase Sigma phase Laves phase Interstitial compounds (Hagg phases) Metallic glasses 9.High-entropy alloy coatings High-entropy alloy coatings Introduction Classification of hard coatings Intrinsic hard coatings Extrinsic hard coatings Multilayer coatings Nanocomposite coatings Conventional hard coatings High-entropy thin film coatings High-entropy thick film coatings 10.High-entropy ceramics High-entropy ceramics Introduction High-entropy nitrides High-entropy oxides High-entropy diborides High-entropy composites High-entropy cemented carbides and cermets 11.Structural properties Structural properties Introduction Mechanical properties Room-temperature mechanical properties Al containing HEAs FCC HEAs Refractory HEAs Eutectic HEAs Oxide dispersion strengthened HEAs Nanotwins High-temperature mechanical properties Wear properties Electrochemical properties Oxidation behavior 12.Functional properties Functional properties Introduction Diffusion barrier properties Electrical properties Thermal properties Magnetic properties Hydrogen storage properties Irradiation resistance Catalytic properties Thermoelectric properties 13.Applications and future directions Applications and future directions Introduction Goals of property improvement Advanced applications demanding new materials Examples of applications Al5Cr12Fe35Mn28Ni20 HEA Co1.5CrFeNi1.5Ti0.5 HEA Profile hardening of Al0.3CrFe1.5MnNi0.5 HEA HEA coatings for antisticky molds and solar cells HEA solders for welding hard metal and steel Eutectic HEAs HEAs for thin-film resistor Thermal spray HEA coating for marine structure Patents on HEAs and related-materials Future directions Appendix 1 Appendix 1 Appendix 2 Appendix 2 References References Index Index A B C D E F G H I L M N O P Q R S T V W X Y Z
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