03764nam 2200637 450 991046352860332120200903223051.03-03813-245-41-61344-720-5(CKB)3190000000024891(EBL)1865165(SSID)ssj0000630764(PQKBManifestationID)11408403(PQKBTitleCode)TC0000630764(PQKBWorkID)10747776(PQKB)10727207(MiAaPQ)EBC1865165(Au-PeEL)EBL1865165(CaPaEBR)ebr10906018(OCoLC)792746645(EXLCZ)99319000000002489120080409h20082008 uy| 0engur|n|---|||||txtccrMechanisms of high temperature corrosion a kinetic approach /Pierre Sarrazin, Alain Galerie, Jacques Fouletier ; translated by Hugh EvansStafa-Zuerich ;Enfield, New Hampshire :Trans Tech Publications Limited,[2008]©20081 online resource (343 p.)Materials science foundations,1422-3597 ;36-37Description based upon print version of record.0-87849-484-7 Includes bibliographical references and index.Mechanisms of High Temperature Corrosion; Preface; Table of Contents; Introduction. Acknowledgement; Table of Contents; Chapter 1: Thermodynamic Aspects of High Temperature Corrosion; 1. Thermodynamics of Mixtures; 2. Gas-Solid Equilibrium; Chapter 2: High Temperature Corrosion : Experimental; 1. The Practical Importance of High Temperature Corrosion; 2. Experimental Techniques; 3. Phenomenological Laws; Chapter 3: Scale Structures; 1. Introduction; 2. Defects Responsible for the Growth of Compact Scales; 3. Defects Responsible for the Growth of Porous ScalesChapter 4: Kinetic Approach to High Temperature Corrosion: Growth of a Compact Scale1. Introduction; 2. Formulation of the Elementary Processes; 3. Calculation of the Reaction Rate of the Elementary Processes; 4. General System of Equations; 5. Overall Reaction Rate Limited by one of the Elementary Chemical Processes; 6. Reaction Rate in Mixed Regimes; Chapter 5: Kinetic Aspects of High Temperature Corrosion: Formation of Multilayered Scales; 1. Introduction; 2. Formation of Compact Subscales; 3. Formation of Porous and Partially Porous Scales; Chapter 6: Corrosion ProtectionThe oxidation of metals is, by definition, a reaction between a gas and a solid which usually produces a solid reaction product. At first glance, this would therefore seem to be a very simple process but, in fact, it is considerably more complex. One would like to think that the reaction product, i.e., the scale that forms on the metal, acts as a physical barrier between the reactants, and that the reaction should thus cease once the barrier is established. We know that this is unfortunately not the case, because transport of matter through the scale allows the reaction to continue. We also knMaterials science foundations ;36-37.Corrosion and anti-corrosivesMaterials at high temperaturesCorrosionElectronic books.Corrosion and anti-corrosives.Materials at high temperaturesCorrosion.620Sarrazin Pierre928410Galerie AlainFouletier JacquesEvans HughMiAaPQMiAaPQMiAaPQBOOK9910463528603321Mechanisms of high temperature corrosion2086738UNINA