05575nam 2200709Ia 450 991078072490332120230124183358.01-282-75782-29786612757822981-4261-64-5(CKB)2490000000001628(EBL)1679341(OCoLC)729020048(SSID)ssj0000426299(PQKBManifestationID)11285554(PQKBTitleCode)TC0000426299(PQKBWorkID)10388996(PQKB)11027948(MiAaPQ)EBC1679341(WSP)00000541 (Au-PeEL)EBL1679341(CaPaEBR)ebr10422062(CaONFJC)MIL275782(EXLCZ)99249000000000162820090116d2010 uy 0engurcn|||||||||txtccrProperties and applications of complex intermetallics[electronic resource] /edited by Esther Belin-FerréSingapore ;London World Scientificc20101 online resource (458 p.)Book series on complex metallic alloys ;v. 2Description based upon print version of record.981-4261-63-7 Includes bibliographical references.CONTENTS; Foreword; Chapter 1: Metallic, Complex and So Different Jean-Marie Dubois; 1. Introduction; 2. Historical Background; 3. Complexity in Real and Reciprocal Space; 3.1. The example of compounds of Al, Mg and Zn; 3.2. Hierarchy, groups of atoms and clusters; 3.3. The key role played by disorder and defects; 3.4. Definition of a CMA in reciprocal space; 4. Metallurgy and Surface Chemistry of CMAs; 4.1. Preparation methods; 4.2. Corrosion, oxidation and interaction with chemical atmosphere; 4.3. Atom transport; 4.4. Essential mechanical properties; 4.5. Metadislocations5. Phase Selection 5.1. Hume-Rothery rules; 5.2. More on specific Al-TM CMAs; 5.3. The case of g-brass type CMAs; 5.4. The case of Al-Mg(-Zn) alloys; 5.4.1. Locating d-like states in Al-TM based alloys; 5.4.2. Alloys based on Al, Mg, and possibly containing Zn; 5.4.3. A supplementary mechanism for phase selection and stability?; 6. Properties of Al-Transition Metal(s) CMAs; 6.1. The essential property of Al-TM CMAs; 6.2. Transport properties; 6.3. Solid-solid contact; 6.3.1. Fretting; 6.3.2. Friction anisotropy; 6.3.3. Surface energy; 6.4. Wetting against liquid metals6.5. Wetting against polar liquids7. Inverse Nano-Structuration; 8. Conclusion; Acknowledgments; References; Chapter 2: Solution Growth of Intermetallic Single Crystals: A Beginner's Guide Paul Canfield; 1. Introduction; 2. What Do You Need?; 3. Planning the Growth; 4. Assembling the Growth; 5. Running the Growth; 6. Decanting; 7. Opening the Growth and Planning the Next One; 8. Final Remarks; Acknowledgments; References; Chapter 3: Thermal Conductivity of Complex Metallic Alloys Ana Smontara, Ante Bilu Deljko Bihar and Igor Smiljani; 1. Introduction2. Basics of the Thermal Conductivity Measurements 2.1. Heat losses in thermal conductivity measurements; 2.2. Example - thermal conductivity of magnetite Fe3O4; 3. The Analysis of Experimental Thermal Conductivity Data; 3.1. Thermal conductivity of metals and alloys; 3.2. Thermal conductivity of complex metallic alloys; 3.2.1. ξ' and Ψ -phases in the AlPdMn complex metallic system; 3.2.2. β-Al3Mg2 complex metallic alloy; 3.2.3. Mg32(Al,Zn)49 complex metallic alloy; 3.2.4. e-phase in the AlPd (Fe,Co,Rh) complex metallic system; 4. Conclusions; Acknowledgments; ReferencesChapter 4: Thermoelectric Materials Silke Pashen 1. Introduction; 2. Cage Compounds; 2.1. Definitions; 2.1.1. Guest/host atoms; 2.1.2. Coordination number (c.n.); 2.1.3. Bond length/strength; 2.1.4. Empty host; 2.2. Examples; 2.2.1. Filled skutterudites; 2.2.2. Intermetallic clathrates; 2.2.3. Clathrate-like compounds; 2.2.4. Oxides; 2.3. Characteristic properties of cage compounds; 2.3.1. Rattling/tunneling; 2.3.2. Phonon glass-electron crystal; 2.4. Tuning for optimized performance; 2.4.1. Stoichiometry; 2.4.2. Doping; 2.4.3. Substitution; 2.4.4. Micro/Nanostructuring3. Strongly Correlated Cage CompoundsComplex metal alloys (CMAs) comprise a huge group of largely unknown alloys and compounds, where many phases are formed with crystal structures based on giant unit cells containing atom clusters, ranging from tens of to more than thousand atoms per unit cell. In these phases, for many phenomena, the physical length scales are substantially smaller than the unit-cell dimension. Hence, these materials offer unique combinations of properties which are mutually exclusive in conventional materials, such as metallic electric conductivity combined with low thermal conductivity, good light absorptionBook series on complex metallic alloys ;v. 2.AlloysCongressesIntermetallic compoundsCongressesPhysical metallurgyCongressesMaterials scienceComplex intermetallicsAlloysIntermetallic compoundsPhysical metallurgy669Belin-Ferré Esther889827MiAaPQMiAaPQMiAaPQBOOK9910780724903321Properties and applications of complex intermetallics3758130UNINA