Details
Microbiologically Influenced Corrosion
Wiley Series in Corrosion, Band 3 1. Aufl.
107,99 € |
|
Verlag: | Wiley |
Format: | |
Veröffentl.: | 13.04.2007 |
ISBN/EAN: | 9780470112441 |
Sprache: | englisch |
Anzahl Seiten: | 288 |
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Beschreibungen
<b>A multi-disciplinary, multi-industry overview of microbiologically influenced corrosion, with strategies for diagnosis and control or prevention</b> <p><i>Microbiologically Influenced Corrosion</i> helps engineers and scientists understand and combat the costly failures that occur due to microbiologically influenced corrosion (MIC). This book combines recent findings from diverse disciplines into one comprehensive reference. Complete with case histories from a variety of environments, it covers:</p> <ul> <li>Biofilm formation</li> <li>Causative organisms, relating bacteria and fungi to corrosion mechanisms for groups of metals</li> <li>Diagnosing and monitoring MIC</li> <li>Electrochemical techniques, with an overview of methods for detection of MIC</li> <li>The impact of alloying elements, including antimicrobial metals, and design features on MIC</li> <li>MIC of non-metallics</li> <li>Strategies for control or prevention of MIC, including engineering, chemical, and biological approaches</li> </ul> <p>This is a valuable, all-inclusive reference for corrosion scientists, engineers, and researchers, as well as designers, managers, and operators.</p>
1. Biofilm Formation. <p>2. Causative Organisms and Possible Mechanisms.</p> <p>3. Diagnosing MIC.</p> <p>4. Electrochemical Techniques Applied to MIC.</p> <p>5. Approaches for Monitoring MIC.</p> <p>6. Impact of Alloying Elements to Susceptibility of MIC.</p> <p>7. Design Features that Determine MIC.</p> <p>8. Case Histories.</p> <p>9. MIC of Non-metallics.</p> <p>10. Strategies to Prevent or Mitigate MIC.</p>
"...strongly recommended for engineers and scientists that design components that might be exposed to MIC…would also make an excellent text…" (<i>Journal of Metals Online</i>, October 23, 2007)
<b>BRENDA LITTLE</b> is Senior Scientist for Marine Molecular Processes at the Naval Research Laboratory, Stennis Space Center, Mississippi. She serves on the editorial board for Biofouling and is a National Association of Corrosion Engineers International Fellow. <p><b>JASON LEE</b> is a Materials and Corrosion Engineer at the Naval Research Laboratory, Ocean Sciences Branch, Stennis Space Center, Mississippi.</p>
A multi-disciplinary, multi-industry overview of microbiologically influenced corrosion, with strategies for diagnosis and control or prevention<br /> <br /> <p>Microbiologically Influenced Corrosion helps engineers and scientists understand and combat the costly failures that occur due to microbiologically influenced corrosion (MIC). This book combines recent findings from diverse disciplines into one comprehensive reference. Complete with case histories from a variety of environments, it covers:</p> <ul> <li>Biofilm formation</li> <li>Causative organisms, relating bacteria and fungi to corrosion mechanisms for groups of metals</li> <li>Diagnosing and monitoring MIC</li> <li>Electrochemical techniques, with an overview of methods for detection of MIC</li> <li>The impact of alloying elements, including antimicrobial metals, and design features on MIC</li> <li>MIC of non-metallics</li> <li>Strategies for control or prevention of MIC, including engineering, chemical, and biological approaches</li> </ul> <p>This is a valuable, all-inclusive reference for corrosion scientists, engineers, and researchers, as well as designers, managers, and operators.</p>