Wettability at high temperatures [[electronic resource] /] / by Nicolas Eustathopoulos, Michael G. Nicholas, Béatrice Drevet |
Autore | Eustathopoulos Nicolas |
Edizione | [1st ed.] |
Pubbl/distr/stampa | Amsterdam ; ; New York, : Pergamon, 1999 |
Descrizione fisica | 1 online resource (439 p.) |
Disciplina | 541.3/3 |
Altri autori (Persone) |
NicholasMichael G
DrevetBéatrice |
Collana | Pergamon materials series |
Soggetto topico |
Wetting
Materials at high temperatures |
Soggetto genere / forma | Electronic books. |
ISBN |
1-281-07196-X
9786611071967 0-08-054378-2 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Cover; Contents; Series Preface; Preface; Chapter 1. Fundamental equations of wetting; 1.1. Surface and interfacial energies in solid/liquid/vapour systems; 1.2. Ideal solid surfaces; 1.3. Non-ideal solid surfaces; 1.4. Different types of wetting; Chapter 2. Dynamics of wetting by metals and glasses; 2.1. Non-reactive wetting; 2.2. Reactive wetting; Chapter 3. Methods of measuring wettability parameters; 3.1. Sessile drop experiments; 3.2. The wetting balance technique; 3.3. Accuracy of contact angle data; 3.4. Concluding remarks; Chapter 4. Surface energies; 4.1. Data for metals and alloys
4.2. Data for non-metallic compounds4.3. Concluding remarks; Chapter 5. Wetting properties of metal/metal systems; 5.1. A pure liquid metal on its own solid; 5.2. Systems with negligible mutual solubility; 5.3. Systems with significant mutual solubility; 5.4. Effects of alloying elements; 5.5. Systems that form intermetallic compounds; 5.6. Wetting under technical conditions; 5.7. Concluding remarks; Chapter 6. Wetting properties of metal/oxide systems; 6.1. Reactive and non-reactive systems; 6.2. Non-reactive pure metal/ionocovalent oxide systems 6.3. Effect of electronic structure of the oxide6.4. Effects of oxygen; 6.5. Alloying elements; 6.6. Wetting of fluorides; 6.7. Concluding remarks; Chapter 7. Wetting properties of metal/non-oxide ceramic systems; 7.1. Metals on predominantly covalent ceramics; 7.2. Metals on metal-like ceramics; Chapter 8. Wetting properties of metal/carbon systems; 8.1. Non-reactive systems; 8.2. Reactive systems; 8.3. Concluding remarks; Chapter 9. Wetting by glasses and salts; 9.1. The glassy state; 9.2. Wetting behaviour; Chapter 10. Wetting when joining; 10.1. Flow into capillary gaps 10.2. Joining metal components10.3. Joining ceramic components: ceramic-ceramic and ceramic-metal joints; 10.4. Joining by related techniques; 10.5. Effects on mechanical properties; Appendix A. The Laplace equation; Appendix B. Free energy of formation of a meniscus on a vertical plate in the gravitational field; Appendix C. Contact angle hysteresis for heterogeneous solid surfaces; Appendix D. Estimation of the mass of a sessile drop needed for an optimised sLV measurement; Appendix E. Wetting balance: the case of cylindrical solids Appendix F. Surface energies of cubic diamond structure compoundsAppendix G. Enthalpy of mixing of binary liquid alloys; Appendix H. Secondary wetting; Appendix I. Evaluation of the work of adhesion of Ni on SiC; List of symbols; Selective Index; Acknowledgements |
Record Nr. | UNINA-9910450148303321 |
Eustathopoulos Nicolas | ||
Amsterdam ; ; New York, : Pergamon, 1999 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Wettability at high temperatures [[electronic resource] /] / by Nicolas Eustathopoulos, Michael G. Nicholas, Béatrice Drevet |
Autore | Eustathopoulos Nicolas |
Edizione | [1st ed.] |
Pubbl/distr/stampa | Amsterdam ; ; New York, : Pergamon, 1999 |
Descrizione fisica | 1 online resource (439 p.) |
Disciplina | 541.3/3 |
Altri autori (Persone) |
NicholasMichael G
DrevetBéatrice |
Collana | Pergamon materials series |
Soggetto topico |
Wetting
Materials at high temperatures |
ISBN |
1-281-07196-X
9786611071967 0-08-054378-2 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Cover; Contents; Series Preface; Preface; Chapter 1. Fundamental equations of wetting; 1.1. Surface and interfacial energies in solid/liquid/vapour systems; 1.2. Ideal solid surfaces; 1.3. Non-ideal solid surfaces; 1.4. Different types of wetting; Chapter 2. Dynamics of wetting by metals and glasses; 2.1. Non-reactive wetting; 2.2. Reactive wetting; Chapter 3. Methods of measuring wettability parameters; 3.1. Sessile drop experiments; 3.2. The wetting balance technique; 3.3. Accuracy of contact angle data; 3.4. Concluding remarks; Chapter 4. Surface energies; 4.1. Data for metals and alloys
4.2. Data for non-metallic compounds4.3. Concluding remarks; Chapter 5. Wetting properties of metal/metal systems; 5.1. A pure liquid metal on its own solid; 5.2. Systems with negligible mutual solubility; 5.3. Systems with significant mutual solubility; 5.4. Effects of alloying elements; 5.5. Systems that form intermetallic compounds; 5.6. Wetting under technical conditions; 5.7. Concluding remarks; Chapter 6. Wetting properties of metal/oxide systems; 6.1. Reactive and non-reactive systems; 6.2. Non-reactive pure metal/ionocovalent oxide systems 6.3. Effect of electronic structure of the oxide6.4. Effects of oxygen; 6.5. Alloying elements; 6.6. Wetting of fluorides; 6.7. Concluding remarks; Chapter 7. Wetting properties of metal/non-oxide ceramic systems; 7.1. Metals on predominantly covalent ceramics; 7.2. Metals on metal-like ceramics; Chapter 8. Wetting properties of metal/carbon systems; 8.1. Non-reactive systems; 8.2. Reactive systems; 8.3. Concluding remarks; Chapter 9. Wetting by glasses and salts; 9.1. The glassy state; 9.2. Wetting behaviour; Chapter 10. Wetting when joining; 10.1. Flow into capillary gaps 10.2. Joining metal components10.3. Joining ceramic components: ceramic-ceramic and ceramic-metal joints; 10.4. Joining by related techniques; 10.5. Effects on mechanical properties; Appendix A. The Laplace equation; Appendix B. Free energy of formation of a meniscus on a vertical plate in the gravitational field; Appendix C. Contact angle hysteresis for heterogeneous solid surfaces; Appendix D. Estimation of the mass of a sessile drop needed for an optimised sLV measurement; Appendix E. Wetting balance: the case of cylindrical solids Appendix F. Surface energies of cubic diamond structure compoundsAppendix G. Enthalpy of mixing of binary liquid alloys; Appendix H. Secondary wetting; Appendix I. Evaluation of the work of adhesion of Ni on SiC; List of symbols; Selective Index; Acknowledgements |
Record Nr. | UNINA-9910783294203321 |
Eustathopoulos Nicolas | ||
Amsterdam ; ; New York, : Pergamon, 1999 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Wettability at high temperatures [[electronic resource] /] / by Nicolas Eustathopoulos, Michael G. Nicholas, Béatrice Drevet |
Autore | Eustathopoulos Nicolas |
Edizione | [1st ed.] |
Pubbl/distr/stampa | Amsterdam ; ; New York, : Pergamon, 1999 |
Descrizione fisica | 1 online resource (439 p.) |
Disciplina | 541.3/3 |
Altri autori (Persone) |
NicholasMichael G
DrevetBéatrice |
Collana | Pergamon materials series |
Soggetto topico |
Wetting
Materials at high temperatures |
ISBN |
1-281-07196-X
9786611071967 0-08-054378-2 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Cover; Contents; Series Preface; Preface; Chapter 1. Fundamental equations of wetting; 1.1. Surface and interfacial energies in solid/liquid/vapour systems; 1.2. Ideal solid surfaces; 1.3. Non-ideal solid surfaces; 1.4. Different types of wetting; Chapter 2. Dynamics of wetting by metals and glasses; 2.1. Non-reactive wetting; 2.2. Reactive wetting; Chapter 3. Methods of measuring wettability parameters; 3.1. Sessile drop experiments; 3.2. The wetting balance technique; 3.3. Accuracy of contact angle data; 3.4. Concluding remarks; Chapter 4. Surface energies; 4.1. Data for metals and alloys
4.2. Data for non-metallic compounds4.3. Concluding remarks; Chapter 5. Wetting properties of metal/metal systems; 5.1. A pure liquid metal on its own solid; 5.2. Systems with negligible mutual solubility; 5.3. Systems with significant mutual solubility; 5.4. Effects of alloying elements; 5.5. Systems that form intermetallic compounds; 5.6. Wetting under technical conditions; 5.7. Concluding remarks; Chapter 6. Wetting properties of metal/oxide systems; 6.1. Reactive and non-reactive systems; 6.2. Non-reactive pure metal/ionocovalent oxide systems 6.3. Effect of electronic structure of the oxide6.4. Effects of oxygen; 6.5. Alloying elements; 6.6. Wetting of fluorides; 6.7. Concluding remarks; Chapter 7. Wetting properties of metal/non-oxide ceramic systems; 7.1. Metals on predominantly covalent ceramics; 7.2. Metals on metal-like ceramics; Chapter 8. Wetting properties of metal/carbon systems; 8.1. Non-reactive systems; 8.2. Reactive systems; 8.3. Concluding remarks; Chapter 9. Wetting by glasses and salts; 9.1. The glassy state; 9.2. Wetting behaviour; Chapter 10. Wetting when joining; 10.1. Flow into capillary gaps 10.2. Joining metal components10.3. Joining ceramic components: ceramic-ceramic and ceramic-metal joints; 10.4. Joining by related techniques; 10.5. Effects on mechanical properties; Appendix A. The Laplace equation; Appendix B. Free energy of formation of a meniscus on a vertical plate in the gravitational field; Appendix C. Contact angle hysteresis for heterogeneous solid surfaces; Appendix D. Estimation of the mass of a sessile drop needed for an optimised sLV measurement; Appendix E. Wetting balance: the case of cylindrical solids Appendix F. Surface energies of cubic diamond structure compoundsAppendix G. Enthalpy of mixing of binary liquid alloys; Appendix H. Secondary wetting; Appendix I. Evaluation of the work of adhesion of Ni on SiC; List of symbols; Selective Index; Acknowledgements |
Record Nr. | UNINA-9910809913603321 |
Eustathopoulos Nicolas | ||
Amsterdam ; ; New York, : Pergamon, 1999 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|