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- 2012472839 abstract "Annotation Recent initiatives and developments in high temperature technology aim at the exploitation of fuels end processes at the edge of present materials capabilities, driving service temperatures higher and operating within ever more aggressive environmental conditions. The major driving force behind this trend is increased efficiencies and further growing efforts in environmental protection. The key to reliable operation of components for sufficiently long service periods to a large extent lies in the high temperature properties of the materials used, with high temperature corrosion resistance as the major life and performance-limiting factor. As conventional alloy design invariably leads to a compromise between mechanical strength and corrosion resistance industry has turned to coatings to provide improved materials performance. Consequently there is extensive worldwide activity to develop high performance protective coating systems, to prevent or minimise damage by corrosion, as well as by abrasion, wear and erosion at elevated temperature. Many of these systems (which may consist of surface modified bulk materials or genuine coating systems and in some cases also of special alloy approaches) are based on systematic development starting from present theoretical understanding including laboratory data and ending up in tailor-made solutions for industrial applications.".
- 2012472839 contributor B12636404.
- 2012472839 contributor B12636405.
- 2012472839 created "2011.".
- 2012472839 date "2011".
- 2012472839 date "2011.".
- 2012472839 dateCopyrighted "2011.".
- 2012472839 description "Annotation Recent initiatives and developments in high temperature technology aim at the exploitation of fuels end processes at the edge of present materials capabilities, driving service temperatures higher and operating within ever more aggressive environmental conditions. The major driving force behind this trend is increased efficiencies and further growing efforts in environmental protection. The key to reliable operation of components for sufficiently long service periods to a large extent lies in the high temperature properties of the materials used, with high temperature corrosion resistance as the major life and performance-limiting factor. As conventional alloy design invariably leads to a compromise between mechanical strength and corrosion resistance industry has turned to coatings to provide improved materials performance. Consequently there is extensive worldwide activity to develop high performance protective coating systems, to prevent or minimise damage by corrosion, as well as by abrasion, wear and erosion at elevated temperature. Many of these systems (which may consist of surface modified bulk materials or genuine coating systems and in some cases also of special alloy approaches) are based on systematic development starting from present theoretical understanding including laboratory data and ending up in tailor-made solutions for industrial applications.".
- 2012472839 description "Includes bibliographical references.".
- 2012472839 extent "xiv, 417 p. :".
- 2012472839 identifier "1906540357".
- 2012472839 identifier "9781906540357".
- 2012472839 isPartOf "European Federation of Corrosion publications ; no. 57".
- 2012472839 issued "2011".
- 2012472839 issued "2011.".
- 2012472839 language "eng".
- 2012472839 publisher "Leeds, U.K. : Maney Pub.,".
- 2012472839 subject "620.11217".
- 2012472839 subject "Materials at high temperatures Corrosion Congresses.".
- 2012472839 subject "Materials at high temperatures Protection Congresses.".
- 2012472839 subject "TA417.7.H55 P76 2006".
- 2012472839 title "Protective systems for high temperature applications : from theory to industrial implementation / edited by M. Schütze.".
- 2012472839 type "text".