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Gamma Titanium Aluminide Alloys [[electronic resource] ] : Science and Technology
Gamma Titanium Aluminide Alloys [[electronic resource] ] : Science and Technology
Autore Appel Fritz
Pubbl/distr/stampa Hoboken, : Wiley, 2011
Descrizione fisica 1 online resource (1537 p.)
Disciplina 620.189322
Altri autori (Persone) PaulJonathan David Heaton
OehringMichael
Soggetto topico Titanium -- Industrial applications
Titanium alloys
Titanium
Soggetto genere / forma Electronic books.
ISBN 3-527-63622-6
3-527-63620-X
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover; Related Titles; Title page; Copyright page; Preface; Figures - Tables Acknowledgement List; 1 Introduction; 2 Constitution; 2.1 The Binary Ti-Al Phase Diagram; 2.2 Ternary and Multicomponent Alloy Systems; 3 Thermophysical Constants; 3.1 Elastic and Thermal Properties; 3.2 Point Defects; 3.3 Diffusion; 4 Phase Transformations and Microstructures; 4.1 Microstructure Formation on Solidification; 4.2 Solid-State Transformations; 5 Deformation Behavior of Single-Phase Alloys; 5.1 Single-Phase γ(TiAl) Alloys; 5.2 Deformation Behavior of Single-Phase α2(Ti3Al) Alloys; 5.3 β/B2 Phase Alloys
6 Deformation Behavior of Two-Phase α2(Ti3Al) + γ(TiAl) Alloys6.1 Lamellar Microstructures; 6.2 Deformation Mechanisms, Contrasting Single-Phase and Two-Phase Alloys; 6.3 Generation of Dislocations and Mechanical Twins; 6.4 Glide Resistance and Dislocation Mobility; 6.5 Thermal and Athermal Stresses; 7 Strengthening Mechanisms; 7.1 Grain Refinement; 7.2 Work Hardening; 7.3 Solution Hardening; 7.4 Precipitation Hardening; 7.5 Optimized Nb-Bearing Alloys; 8 Deformation Behavior of Alloys with a Modulated Microstructure; 8.1 Modulated Microstructures; 8.2 Misfitting Interfaces
10.4 Fracture Toughness, Strength, and Ductility10.5 Fracture Behavior of Modulated Alloys; 10.6 Requirements for Ductility and Toughness; 10.7 Assessment of Property Variability; 11 Fatigue; 11.1 Definitions; 11.2 The Stress-Life (S-N) Behavior; 11.3 HCF; 11.4 Effects of Temperature and Environment on the Cyclic Crack-Growth Resistance; 11.5 LCF; 11.6 Thermomechanical Fatigue and Creep Relaxation; 12 Oxidation Behavior and Related Issues; 12.1 Kinetics and Thermodynamics; 12.2 General Aspects Concerning Oxidation; 12.3 Summary; 13 Alloy Design; 13.1 Effect of Aluminum Content
13.2 Important Alloying Elements - General Remarks13.3 Specific Alloy Systems; 13.4 Summary; 14 Ingot Production and Component Casting; 14.1 Ingot Production; 14.2 Casting; 14.3 Summary; 15 Powder Metallurgy; 15.1 Prealloyed Powder Technology; 15.2 Elemental-Powder Technology; 15.3 Mechanical Alloying; 16 Wrought Processing; 16.1 Flow Behavior under Hot-Working Conditions; 16.2 Conversion of Microstructure; 16.3 Workability and Primary Processing; 16.4 Texture Evolution; 16.5 Secondary Processing; 17 Joining; 17.1 Diffusion Bonding; 17.2 Brazing and Other Joining Technologies
18 Surface Hardening
Record Nr. UNINA-9910130962203321
Appel Fritz  
Hoboken, : Wiley, 2011
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Gamma Titanium Aluminide Alloys [[electronic resource] ] : Science and Technology
Gamma Titanium Aluminide Alloys [[electronic resource] ] : Science and Technology
Autore Appel Fritz
Pubbl/distr/stampa Hoboken, : Wiley, 2011
Descrizione fisica 1 online resource (1537 p.)
Disciplina 620.189322
Altri autori (Persone) PaulJonathan David Heaton
OehringMichael
Soggetto topico Titanium -- Industrial applications
Titanium alloys
Titanium
ISBN 3-527-63622-6
3-527-63620-X
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover; Related Titles; Title page; Copyright page; Preface; Figures - Tables Acknowledgement List; 1 Introduction; 2 Constitution; 2.1 The Binary Ti-Al Phase Diagram; 2.2 Ternary and Multicomponent Alloy Systems; 3 Thermophysical Constants; 3.1 Elastic and Thermal Properties; 3.2 Point Defects; 3.3 Diffusion; 4 Phase Transformations and Microstructures; 4.1 Microstructure Formation on Solidification; 4.2 Solid-State Transformations; 5 Deformation Behavior of Single-Phase Alloys; 5.1 Single-Phase γ(TiAl) Alloys; 5.2 Deformation Behavior of Single-Phase α2(Ti3Al) Alloys; 5.3 β/B2 Phase Alloys
6 Deformation Behavior of Two-Phase α2(Ti3Al) + γ(TiAl) Alloys6.1 Lamellar Microstructures; 6.2 Deformation Mechanisms, Contrasting Single-Phase and Two-Phase Alloys; 6.3 Generation of Dislocations and Mechanical Twins; 6.4 Glide Resistance and Dislocation Mobility; 6.5 Thermal and Athermal Stresses; 7 Strengthening Mechanisms; 7.1 Grain Refinement; 7.2 Work Hardening; 7.3 Solution Hardening; 7.4 Precipitation Hardening; 7.5 Optimized Nb-Bearing Alloys; 8 Deformation Behavior of Alloys with a Modulated Microstructure; 8.1 Modulated Microstructures; 8.2 Misfitting Interfaces
10.4 Fracture Toughness, Strength, and Ductility10.5 Fracture Behavior of Modulated Alloys; 10.6 Requirements for Ductility and Toughness; 10.7 Assessment of Property Variability; 11 Fatigue; 11.1 Definitions; 11.2 The Stress-Life (S-N) Behavior; 11.3 HCF; 11.4 Effects of Temperature and Environment on the Cyclic Crack-Growth Resistance; 11.5 LCF; 11.6 Thermomechanical Fatigue and Creep Relaxation; 12 Oxidation Behavior and Related Issues; 12.1 Kinetics and Thermodynamics; 12.2 General Aspects Concerning Oxidation; 12.3 Summary; 13 Alloy Design; 13.1 Effect of Aluminum Content
13.2 Important Alloying Elements - General Remarks13.3 Specific Alloy Systems; 13.4 Summary; 14 Ingot Production and Component Casting; 14.1 Ingot Production; 14.2 Casting; 14.3 Summary; 15 Powder Metallurgy; 15.1 Prealloyed Powder Technology; 15.2 Elemental-Powder Technology; 15.3 Mechanical Alloying; 16 Wrought Processing; 16.1 Flow Behavior under Hot-Working Conditions; 16.2 Conversion of Microstructure; 16.3 Workability and Primary Processing; 16.4 Texture Evolution; 16.5 Secondary Processing; 17 Joining; 17.1 Diffusion Bonding; 17.2 Brazing and Other Joining Technologies
18 Surface Hardening
Record Nr. UNINA-9910830354103321
Appel Fritz  
Hoboken, : Wiley, 2011
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Gamma Titanium Aluminide Alloys : Science and Technology
Gamma Titanium Aluminide Alloys : Science and Technology
Autore Appel Fritz
Pubbl/distr/stampa Hoboken, : Wiley, 2011
Descrizione fisica 1 online resource (1537 p.)
Disciplina 620.189322
Altri autori (Persone) PaulJonathan David Heaton
OehringMichael
Soggetto topico Titanium -- Industrial applications
Titanium alloys
Titanium
ISBN 3-527-63622-6
3-527-63620-X
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover; Related Titles; Title page; Copyright page; Preface; Figures - Tables Acknowledgement List; 1 Introduction; 2 Constitution; 2.1 The Binary Ti-Al Phase Diagram; 2.2 Ternary and Multicomponent Alloy Systems; 3 Thermophysical Constants; 3.1 Elastic and Thermal Properties; 3.2 Point Defects; 3.3 Diffusion; 4 Phase Transformations and Microstructures; 4.1 Microstructure Formation on Solidification; 4.2 Solid-State Transformations; 5 Deformation Behavior of Single-Phase Alloys; 5.1 Single-Phase γ(TiAl) Alloys; 5.2 Deformation Behavior of Single-Phase α2(Ti3Al) Alloys; 5.3 β/B2 Phase Alloys
6 Deformation Behavior of Two-Phase α2(Ti3Al) + γ(TiAl) Alloys6.1 Lamellar Microstructures; 6.2 Deformation Mechanisms, Contrasting Single-Phase and Two-Phase Alloys; 6.3 Generation of Dislocations and Mechanical Twins; 6.4 Glide Resistance and Dislocation Mobility; 6.5 Thermal and Athermal Stresses; 7 Strengthening Mechanisms; 7.1 Grain Refinement; 7.2 Work Hardening; 7.3 Solution Hardening; 7.4 Precipitation Hardening; 7.5 Optimized Nb-Bearing Alloys; 8 Deformation Behavior of Alloys with a Modulated Microstructure; 8.1 Modulated Microstructures; 8.2 Misfitting Interfaces
10.4 Fracture Toughness, Strength, and Ductility10.5 Fracture Behavior of Modulated Alloys; 10.6 Requirements for Ductility and Toughness; 10.7 Assessment of Property Variability; 11 Fatigue; 11.1 Definitions; 11.2 The Stress-Life (S-N) Behavior; 11.3 HCF; 11.4 Effects of Temperature and Environment on the Cyclic Crack-Growth Resistance; 11.5 LCF; 11.6 Thermomechanical Fatigue and Creep Relaxation; 12 Oxidation Behavior and Related Issues; 12.1 Kinetics and Thermodynamics; 12.2 General Aspects Concerning Oxidation; 12.3 Summary; 13 Alloy Design; 13.1 Effect of Aluminum Content
13.2 Important Alloying Elements - General Remarks13.3 Specific Alloy Systems; 13.4 Summary; 14 Ingot Production and Component Casting; 14.1 Ingot Production; 14.2 Casting; 14.3 Summary; 15 Powder Metallurgy; 15.1 Prealloyed Powder Technology; 15.2 Elemental-Powder Technology; 15.3 Mechanical Alloying; 16 Wrought Processing; 16.1 Flow Behavior under Hot-Working Conditions; 16.2 Conversion of Microstructure; 16.3 Workability and Primary Processing; 16.4 Texture Evolution; 16.5 Secondary Processing; 17 Joining; 17.1 Diffusion Bonding; 17.2 Brazing and Other Joining Technologies
18 Surface Hardening
Record Nr. UNINA-9910877036703321
Appel Fritz  
Hoboken, : Wiley, 2011
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui