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120613s2012 paua ob 001 0 eng d |
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|a E7B
|b eng
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|a 865332828
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|a 9780857096012
|q (electronic bk.)
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|a 085709601X
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|z 9781845699918
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|z 1845699912 (print)
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|a (OCoLC)847549379
|z (OCoLC)865332828
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|a TA455.C43
|b A38 2012eb
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|a 620.14
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|a Advances in science and technology of Mn+1AXn phases /
|c edited by I.M. Low.
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|a Philadelphia :
|b Woodhead Pub.,
|c 2012.
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|a 1 online resource (xiiv, 429 pages :) :
|b illustrations
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|a text
|b txt
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|a computer
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|a online resource
|b cr
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|a Woodhead publishing in mechanical engineering
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|a Includes bibliographical references and index.
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|a Advances in Science and Technology of Mn+1AXn Phases presents a comprehensive review of synthesis, microstructures, properties, ab-initio calculations and applications of Mn+1AXn phases and targets the continuing research of advanced materials and ceramics. An overview of the current status, future directions, challenges and opportunities of Mn+1AXn phases that exhibit some of the best attributes of metals and ceramics is included. Students of materials science and engineering at postgraduate level will value this book as a reference source at an international level for both teaching and research in materials science and engineering. In addition to students the principal audiences of this book are ceramic researchers, materials scientists and engineers, materials physicists and chemists. The book is also an invaluable reference for the professional materials and ceramics societies. The most up-to-date and comprehensive research data on MAX phases is presentedWritten by highly knowledgeable and well-respected researchers in the fieldDiscusses new and unusual properties.
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|a Cover; Advances in science andtechnology of M n+1 AX nphases; Copyright; Contents; Figures; Tables; Preface; Recommended Reading; About the editor and contributors; 1 Methods of MAX-phase synthesis and densification -- I; 1.1 Introduction; 1.2 Synthesis methods; References; 2 Methods of MAX-phase synthesis and densification -- II; 2.1 Introduction; 2.2 Powder synthesis; 2.3 Synthesis of solids; 2.4 Synthesis of thin films; 2.5 Mechanisms of reaction synthesis for MAX phases; 2.6 Conclusions; References; 3 Consolidation and synthesis of MAX phases by Spark Plasma Sintering (SPS): a review.
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|a 3.1 Introduction3.2 Spark plasma sintering; 3.3 Spark plasma sintering of MAX phases; 3.4 MAX phase composites; 3.5 MAX phase solid solutions; 3.6 MAX phase coatings; 3.7 Conclusions; References; Microstructural examination during the formation of Ti3AlC2 from mixtures of Ti/Al/C and Ti/Al/TiC; 4.1 Introduction; 4.2 Experimental procedure; 4.3 Effect of starting powder mixtures on formation of Ti3AlC2; 4.4 Reaction routes for powder mixture of 3Ti/Al/2C; 4.5 Reaction routes for powder mixture of Ti/Al/2TiC; 4.6 Summary; References.
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|a 5 Fabrication of in situ Ti2AlN/TiAl composites and their mechanical, friction and wear properties5.1 Introduction; 5.2 Fabrication of Ti2AlN/TiAl composites; 5.3 Mechanical properties of Ti2AlN/TiAl composites; 5.4 Friction and wear properties of Ti2AlN/TiAl composites at room temperature; 5.5 Friction and wear properties of Ti2AlN/TiAl composites at high temperature; 5.6 Conclusions; References; 6 Use of MAX particles to improve the toughness of brittle ceramics; 6.1 Introduction; 6.2 Experimental; 6.3 Results and discussion; 6.4 Conclusions; References.
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|a 7 Electrical properties of MAX phases7.1 Introduction; 7.2 Resistivity; 7.3 Conduction mechanisms; 7.4 Superconductivity; 7.5 Conclusions; Acknowledgement; References; 8 Theoretical study of physicalproperties and oxygen incorporationeffect in nanolaminated ternarycarbides 211-MAX phases; 8.1 Introduction; 8.2 Crystal structure of MAX phases; 8.3 Steric effect on the M-site in MAX phases; 8.4 Bulk modulus of MAX phases; 8.5 Analysis of the electronic structure; 8.6 Elastic properties; 8.7 Effect of oxygen incorporation on the structural, elastic and electronic properties in Ti2SnC.
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|a 8.8 ConclusionsNote; References; 9 Computational modelling and ab initio calculations in MAX phases -- I; 9.1 Introduction; 9.2 Density functional theory; 9.3 The structural properties of M n+1AX n under pressure; 9.4 Ab initio study of electronicproperties; 9.5 Ab initio study of mechanicalproperties; 9.6 Ab initio study of optical properties; References; 10 Computational modeling and ab initiocalculations in MAX phases -- II; 10.1 Computational modeling of MAX phases; 10.2 Electronic structures and properties of MAX phases; 10.3 Stabilities and occurrences of MAX phases.
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|a Ceramic materials.
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|a Mat�eriaux c�eramiques.
|0 (CaQQLa)201-0022260
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|a TECHNOLOGY & ENGINEERING
|x Engineering (General)
|2 bisacsh
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|a TECHNOLOGY & ENGINEERING
|x Reference.
|2 bisacsh
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|a Ceramic materials.
|2 fast
|0 (OCoLC)fst00850974
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|a Low, I. M.
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|i Print version:
|a Low, I M.
|t Advances In Science And Technology Of Mn+1Axn Phases.
|d Burlington : Elsevier Science, �2012
|z 9781845699918
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856 |
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|u https://sciencedirect.uam.elogim.com/science/book/9781845699918
|z Texto completo
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