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200 1 $aMathematical methods for physics$fHenry William Wyld
210   $aReading$cW. A. Benjamin Inc.$d1976
215   $aXVI, 628 p.$cill.$d24 cm
225 2 $aLecture notes and supplements in physics$v15
410  0$1001000326692$12001$aLecture notes and supplements in physics
700  1$aWYLA,$bHenry William$0604742
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010   $a1-281-02915-7
010   $a9786611029159
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101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
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183   $acr
200 10$aCasting aluminum alloys /$fVadim S. Zolotorevsky and Nikolai A. Belov, Michael V. Glazoff
205   $a1st ed.
210   $aAmsterdam ;$aOxford $cElsevier Science$d2007
215   $a1 online resource (545 p.)
300   $aDescription based upon print version of record.
311   $a0-12-812114-9 
311   $a0-08-045370-8 
320   $aIncludes bibliographical references and index.
327   $aFront Cover; Casting Aluminum Alloys; Copyright Page; Contents; Preface; Notations; Chapter 1. Alloying Elements and Dopants: Phase Diagrams; 1.1 The Role of Alloying Elements and Dopants: Basic Alloy Systems; 1.2 Phase Diagrams of Ternary Systems; 1.2.1 The Al-Be-Fe system; 1.2.2 The Al-Be-Si system; 1.2.3 The Al-Ce-Cu system; 1.2.4 The Al-Ce-Fe system; 1.2.5 The Al-Ce-Ni system; 1.2.6 The Al-Ce-Si system; 1.2.7 The Al-Cr-Fe system; 1.2.8 The Al-Cr-Mg system; 1.2.9 The Al-Cr-Mn system; 1.2.10 The Al-Cr-Si system; 1.2.11 The Al-Cu-Fe system; 1.2.12 The Al-Cu-Mg system
327   $a1.2.13 The Al-Cu-Mn system1.2.14 The Al-Cu-Ni system; 1.2.15 The Al-Cu-Si system; 1.2.16 The Al-Cu-Zn system; 1.2.17 The Al-Fe-Mg system; 1.2.18 The Al-Fe-Mn system; 1.2.19 The Al-Fe-Ni system; 1.2.20 The Al-Fe-Si system; 1.2.21 The Al-Mg-Mn system; 1.2.22 The Al-Mg-Si system; 1.2.23 The Al-Mg-Zn system; 1.2.24 The Al-Mn-Ni system; 1.2.25 The Al-Mn-Si system; 1.2.26 The Al-Ni-Si system; 1.3 Phase Diagrams of Four-Component Systems; 1.3.1 The Al-Be-Fe-Si phase diagram; 1.3.2 The Al-Cu-Fe-Mg system; 1.3.3 The Al-Cu-Fe-Mn system; 1.3.4 The Al-Cu-Fe-Ni system; 1.3.5 The Al-Cu-Fe-Si system
327   $a1.3.6 The Al-Cu-Mg-Mn system1.3.7 The Al-Cu-Mg-Si system; 1.3.8 The Al-Cu-Mg-Zn system; 1.3.9 The Al-Fe-Mg-Mn system; 1.3.10 The Al-Fe-Mg-Si system; 1.3.11 The Al-Fe-Mn-Si system; 1.3.12 The Al-Fe-Ni-Si system; 1.3.13 The Al-Mg-Mn-Si system; 1.3.14 The Al-Mg-Ni-Si system; 1.4 Five-Component Phase Diagrams; 1.4.1 The Al-Fe-Cu-Mg-Si system; 1.4.2 Five-component Systems with manganese; Chapter 2. Structure and Microstructure of Aluminum Alloys in As-Cast State; 2.1 Phase Diagrams, Thermodynamics, and Alloy Microstructure; 2.2 Equilibrium Thermodynamics and Its Development
327   $a2.2.1 Classical equilibrium thermodynamics2.2.2 Equilibrium thermodynamics of concentrationally non-uniform systems; 2.3 Brief Description of Solidification Microstructure Evolution in Casting Aluminum Alloys via the ""Phase-Field'' Approach; 2.3.1 Phase-field approach applied to solidification; 2.3.2 Dendritic solidification of pure metals; 2.3.3 Phase-field model for solidification of eutectic alloys[sup(11)]; 2.3.4 Solidification microstructure calculations: perspectives and future work; 2.4 Quantitative Characteristics of Alloy Structure and Methods of its Evaluation
327   $a2.5 Non-Equilibrium Solidification of Binary Alloys2.5.1 Microsegregation; 2.5.2 Influence of cooling rate upon solidification and formation of constituent particles of secondary (excessive) phases; 2.6 Non-Equilibrium Solidification of Multi-Component Alloys; 2.6.1 Non-equilibrium phase diagrams of multicomponent systems; 2.6.2 Microsegregation in three-component and industrial aluminum alloys; 2.7 Microstructure of Cast Aluminum Alloys; 2.8 Substructure of Casting Aluminum Alloys; 2.8.1 Types of dislocation structures in as-cast aluminum alloys of different systems
327   $a2.8.2 The influence of solidification conditions upon dislocation microstructure
330   $aThis monograph summarizes research conducted at Moscow Institute of Steel and Alloy during many decades in part together with Alcoa Inc. The research covered areas of the structure, properties, thermal resistance, corrosion and fatigue of aluminum alloys in industrial manufacturing.·Emphasis on interconnection among phase equilibria, thermodynamics and microstructure of alloys;·Systematic overview of all phase diagrams with Al that are important for the development of casting aluminium alloys·Diagrams (""processing windows"") of  important technological properties such as casta
606   $aAluminum founding
606   $aAluminum alloys$xMetallurgy
615  0$aAluminum founding.
615  0$aAluminum alloys$xMetallurgy.
676   $a673.7222
676   $a673.7222
700   $aZolotorevskii$b Vadim Semenovich$01822922
701   $aBelov$b N. A$0627400
701   $aGlazoff$b Michael V$0880545
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9911006685203321
996   $aCasting aluminum alloys$94389362
997   $aUNINA