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100   $a19990819d1999      uy             0
101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 10$aWettability at high temperatures$b[electronic resource] /$fby Nicolas Eustathopoulos, Michael G. Nicholas, Be?atrice Drevet
205   $a1st ed.
210   $aAmsterdam ;$aNew York $cPergamon$d1999
215   $a1 online resource (439 p.)
225 1 $aPergamon materials series ;$vv. 3
300   $aDescription based upon print version of record.
311   $a0-08-042146-6 
320   $aIncludes bibliographical references and index.
327   $aCover; 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
327   $a4.2. 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
327   $a6.3. 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
327   $a10.2. 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
327   $aAppendix 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
330   $aThe purpose of this book is to bring together current scientific understanding of wetting behaviour that has been gained from theoretical models and quantitative experimental observations. The materials considered are liquid metals or inorganic glasses in contact with solid metals or ceramics at temperatures of 200-2000oC.  Wetting has been a significant scientific concern for the last two centuries and reference will be made to classical work by nineteenth century scientists such as Dupre?, Laplace and Young that was validated by observations of the behaviour of chemically inert
410  0$aPergamon materials series ;$vv. 3.
606   $aWetting
606   $aMaterials at high temperatures
608   $aElectronic books.
615  0$aWetting.
615  0$aMaterials at high temperatures.
676   $a541.3/3
700   $aEustathopoulos$b Nicolas$0962119
701   $aNicholas$b Michael G$0962120
701   $aDrevet$b Be?atrice$0962121
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9910450148303321
996   $aWettability at high temperatures$92181387
997   $aUNINA