Sintering of systems with interacting components / / A.P. Savitskii |
Autore | Savit͡skiĭ A. P. |
Pubbl/distr/stampa | Stafa-Zuerich ; ; United Kingdom : , : Trans Tech, , [2009] |
Descrizione fisica | 1 online resource (292 p.) |
Disciplina | 671.373 |
Altri autori (Persone) | Savit͡skiĭA. P |
Collana | Materials science foundations |
Soggetto topico | Sintering |
Soggetto genere / forma | Electronic books. |
ISBN | 3-03813-319-1 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Sintering of Systems with Interacting Components; Arnold Savitskii ; Brief Annotation; Preface to the English Edition; Preface to the Russian Edition; Introduction; Table of Contents; Table of Contents; CHAPTER 1. SINTERING OF SINGLE PHASES; 1.1. Mechanisms of Sintering; 1.2. Factors Affecting Sintering; CHAPTER 2. PRINCIPAL AND RELATED PROBLEMS; 2.1. Driving Forces for Sintering; Definition of the Term "Sintering"; 2.2. Diffusion Interaction between Solid and Liquid Metals; 2.3. Plastic Flow in the Diffusion Zone; 2.4. Growth of Powder Compacts during Liquid-Phase Sintering
2.5. Dilatometry of Powder Compacts during Liquid-Phase Sintering2.6. Formation of Liquid Phase in Systems with Intermetallic Compounds; CHAPTER 3. VOLUME CHANGES OF TWO-COMPONENT COMPACTS DURING SINTERING; 3.1 Model of Two-Component Powder Compact Being Sintered in the Solid State; 3.2. Volume Changes of Ti-Ni Powder Compacts during Sintering; 3.3. Model of Powder Compact Being Sintered in the Presence of a Liquid Phase; 3.4. Amount of Growth of Powder Compacts during Liquid-Phase Sintering; 3.5. Degree of Densification of Compacts during Liquid-Phase Sintering 3.6. Overall Magnitude of Compact Volume Changes during Liquid-Phase SinteringCHAPTER 4. SINTERING OF SYSTEMS WITH CONSIDERABLE SOLUBILITY IN THE SOLID PHASE; 4.1. Effect of Titanium Particle Size on Compact Growth in the Ti-Al System; 4.2. Dilatometric and Structural Studies of Growth Process in the Ti-Al System; 4.3. Volume Growth as a Method for Obtaining Highly Porous Ti-Al Alloys; 4.4. Volume Changes Exhibited by Al-Zn Compacts; 4.5. Liquid-Phase Sintering of Powder Compacts in the Al-Mg System; CHAPTER 5. SYSTEMS WITH CONSIDERABLE SOLUBILITY OF THE COMPONENTS IN THE SOLID AND LIQUID 5.1. Volume Changes of Compacts in the Cu-Sn System5.2. Dilatometric and Structural Studies of Liquid-Phase Sintering in the Cu-Sn System; 5.3. Volume Changes in Cu-Al Compacts; 5.4. Aluminium Bronze, Parts made from which Change Little in Size during Sintering; CHAPTER 6. Al-Cu SYSTEM WITH HIGH SOLUBILITY IN THE LIQUID PHASE; 6.1. Volume Changes of Al-Cu Compacts during Sintering; 6.2. Effect of Porosity upon Volume Changes; 6.3. Effect of Aluminium Particle Size; 6.4. Alloy and Structure Formation; 6.5. Sintering in the Presence of a Large Amount of Liquid Phase; 6.6. Exothermal Sintering 6.7. Optimisation of Liquid-Phase Sintering Regimes6.8. Possibility of Decreasing Compact Growth during Sintering; CHAPTER 7. SINTERING OF ALUMINIUM WITH TRANSITION METALS; 7.1. Liquid-Phase Sintering of the Al-Cr System; 7.2. Liquid-Phase Sintering of the Al-Ti System; 7.3. Liquid-Phase Sintering of the Al-Ni System; 7.4. Liquid-Phase Sintering of the Al-Fe System; CONCLUSION; References |
Record Nr. | UNINA-9910465419203321 |
Savit͡skiĭ A. P. | ||
Stafa-Zuerich ; ; United Kingdom : , : Trans Tech, , [2009] | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Sintering of systems with interacting components / / A.P. Savitskii |
Autore | Savit͡skiĭ A. P. |
Pubbl/distr/stampa | Stafa-Zuerich ; ; United Kingdom : , : Trans Tech, , [2009] |
Descrizione fisica | 1 online resource (292 p.) |
Disciplina | 671.373 |
Altri autori (Persone) | Savit͡skiĭA. P |
Collana | Materials science foundations |
Soggetto topico | Sintering |
ISBN | 3-03813-319-1 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Sintering of Systems with Interacting Components; Arnold Savitskii ; Brief Annotation; Preface to the English Edition; Preface to the Russian Edition; Introduction; Table of Contents; Table of Contents; CHAPTER 1. SINTERING OF SINGLE PHASES; 1.1. Mechanisms of Sintering; 1.2. Factors Affecting Sintering; CHAPTER 2. PRINCIPAL AND RELATED PROBLEMS; 2.1. Driving Forces for Sintering; Definition of the Term "Sintering"; 2.2. Diffusion Interaction between Solid and Liquid Metals; 2.3. Plastic Flow in the Diffusion Zone; 2.4. Growth of Powder Compacts during Liquid-Phase Sintering
2.5. Dilatometry of Powder Compacts during Liquid-Phase Sintering2.6. Formation of Liquid Phase in Systems with Intermetallic Compounds; CHAPTER 3. VOLUME CHANGES OF TWO-COMPONENT COMPACTS DURING SINTERING; 3.1 Model of Two-Component Powder Compact Being Sintered in the Solid State; 3.2. Volume Changes of Ti-Ni Powder Compacts during Sintering; 3.3. Model of Powder Compact Being Sintered in the Presence of a Liquid Phase; 3.4. Amount of Growth of Powder Compacts during Liquid-Phase Sintering; 3.5. Degree of Densification of Compacts during Liquid-Phase Sintering 3.6. Overall Magnitude of Compact Volume Changes during Liquid-Phase SinteringCHAPTER 4. SINTERING OF SYSTEMS WITH CONSIDERABLE SOLUBILITY IN THE SOLID PHASE; 4.1. Effect of Titanium Particle Size on Compact Growth in the Ti-Al System; 4.2. Dilatometric and Structural Studies of Growth Process in the Ti-Al System; 4.3. Volume Growth as a Method for Obtaining Highly Porous Ti-Al Alloys; 4.4. Volume Changes Exhibited by Al-Zn Compacts; 4.5. Liquid-Phase Sintering of Powder Compacts in the Al-Mg System; CHAPTER 5. SYSTEMS WITH CONSIDERABLE SOLUBILITY OF THE COMPONENTS IN THE SOLID AND LIQUID 5.1. Volume Changes of Compacts in the Cu-Sn System5.2. Dilatometric and Structural Studies of Liquid-Phase Sintering in the Cu-Sn System; 5.3. Volume Changes in Cu-Al Compacts; 5.4. Aluminium Bronze, Parts made from which Change Little in Size during Sintering; CHAPTER 6. Al-Cu SYSTEM WITH HIGH SOLUBILITY IN THE LIQUID PHASE; 6.1. Volume Changes of Al-Cu Compacts during Sintering; 6.2. Effect of Porosity upon Volume Changes; 6.3. Effect of Aluminium Particle Size; 6.4. Alloy and Structure Formation; 6.5. Sintering in the Presence of a Large Amount of Liquid Phase; 6.6. Exothermal Sintering 6.7. Optimisation of Liquid-Phase Sintering Regimes6.8. Possibility of Decreasing Compact Growth during Sintering; CHAPTER 7. SINTERING OF ALUMINIUM WITH TRANSITION METALS; 7.1. Liquid-Phase Sintering of the Al-Cr System; 7.2. Liquid-Phase Sintering of the Al-Ti System; 7.3. Liquid-Phase Sintering of the Al-Ni System; 7.4. Liquid-Phase Sintering of the Al-Fe System; CONCLUSION; References |
Record Nr. | UNINA-9910786508403321 |
Savit͡skiĭ A. P. | ||
Stafa-Zuerich ; ; United Kingdom : , : Trans Tech, , [2009] | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Sintering of systems with interacting components / / A.P. Savitskii |
Autore | Savit͡skiĭ A. P. |
Pubbl/distr/stampa | Stafa-Zuerich ; ; United Kingdom : , : Trans Tech, , [2009] |
Descrizione fisica | 1 online resource (292 p.) |
Disciplina | 671.373 |
Altri autori (Persone) | Savit͡skiĭA. P |
Collana | Materials science foundations |
Soggetto topico | Sintering |
ISBN | 3-03813-319-1 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Sintering of Systems with Interacting Components; Arnold Savitskii ; Brief Annotation; Preface to the English Edition; Preface to the Russian Edition; Introduction; Table of Contents; Table of Contents; CHAPTER 1. SINTERING OF SINGLE PHASES; 1.1. Mechanisms of Sintering; 1.2. Factors Affecting Sintering; CHAPTER 2. PRINCIPAL AND RELATED PROBLEMS; 2.1. Driving Forces for Sintering; Definition of the Term "Sintering"; 2.2. Diffusion Interaction between Solid and Liquid Metals; 2.3. Plastic Flow in the Diffusion Zone; 2.4. Growth of Powder Compacts during Liquid-Phase Sintering
2.5. Dilatometry of Powder Compacts during Liquid-Phase Sintering2.6. Formation of Liquid Phase in Systems with Intermetallic Compounds; CHAPTER 3. VOLUME CHANGES OF TWO-COMPONENT COMPACTS DURING SINTERING; 3.1 Model of Two-Component Powder Compact Being Sintered in the Solid State; 3.2. Volume Changes of Ti-Ni Powder Compacts during Sintering; 3.3. Model of Powder Compact Being Sintered in the Presence of a Liquid Phase; 3.4. Amount of Growth of Powder Compacts during Liquid-Phase Sintering; 3.5. Degree of Densification of Compacts during Liquid-Phase Sintering 3.6. Overall Magnitude of Compact Volume Changes during Liquid-Phase SinteringCHAPTER 4. SINTERING OF SYSTEMS WITH CONSIDERABLE SOLUBILITY IN THE SOLID PHASE; 4.1. Effect of Titanium Particle Size on Compact Growth in the Ti-Al System; 4.2. Dilatometric and Structural Studies of Growth Process in the Ti-Al System; 4.3. Volume Growth as a Method for Obtaining Highly Porous Ti-Al Alloys; 4.4. Volume Changes Exhibited by Al-Zn Compacts; 4.5. Liquid-Phase Sintering of Powder Compacts in the Al-Mg System; CHAPTER 5. SYSTEMS WITH CONSIDERABLE SOLUBILITY OF THE COMPONENTS IN THE SOLID AND LIQUID 5.1. Volume Changes of Compacts in the Cu-Sn System5.2. Dilatometric and Structural Studies of Liquid-Phase Sintering in the Cu-Sn System; 5.3. Volume Changes in Cu-Al Compacts; 5.4. Aluminium Bronze, Parts made from which Change Little in Size during Sintering; CHAPTER 6. Al-Cu SYSTEM WITH HIGH SOLUBILITY IN THE LIQUID PHASE; 6.1. Volume Changes of Al-Cu Compacts during Sintering; 6.2. Effect of Porosity upon Volume Changes; 6.3. Effect of Aluminium Particle Size; 6.4. Alloy and Structure Formation; 6.5. Sintering in the Presence of a Large Amount of Liquid Phase; 6.6. Exothermal Sintering 6.7. Optimisation of Liquid-Phase Sintering Regimes6.8. Possibility of Decreasing Compact Growth during Sintering; CHAPTER 7. SINTERING OF ALUMINIUM WITH TRANSITION METALS; 7.1. Liquid-Phase Sintering of the Al-Cr System; 7.2. Liquid-Phase Sintering of the Al-Ti System; 7.3. Liquid-Phase Sintering of the Al-Ni System; 7.4. Liquid-Phase Sintering of the Al-Fe System; CONCLUSION; References |
Record Nr. | UNINA-9910815350403321 |
Savit͡skiĭ A. P. | ||
Stafa-Zuerich ; ; United Kingdom : , : Trans Tech, , [2009] | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|