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Page 259
One point of major significance is the approximate 10 times greater crevice depth attack on lower molybdenum containing alloy 22 in comparison to higher molybdenum containing alloy 59 and C - 276 . In FGD systems , crevice corrosion is ...
One point of major significance is the approximate 10 times greater crevice depth attack on lower molybdenum containing alloy 22 in comparison to higher molybdenum containing alloy 59 and C - 276 . In FGD systems , crevice corrosion is ...
Page 280
Alloy C - 4 and Alloy C - 276 due to their lower chromium content exhibit much higher uniform corrosion rates in this highly oxidizing solution of boiling 50 % H2SO4 + 42 g / l of Fez ( SO4 ) 3 9H2O . ASTM G - 28 METHOD B : This test ...
Alloy C - 4 and Alloy C - 276 due to their lower chromium content exhibit much higher uniform corrosion rates in this highly oxidizing solution of boiling 50 % H2SO4 + 42 g / l of Fez ( SO4 ) 3 9H2O . ASTM G - 28 METHOD B : This test ...
Page 281
... ( Alloy 59 and Alloy C - 276 ) have 10 times lower crevice corrosion depth of attack than the lower molybdenum containing Alloy 22. In real world situations crevice corrosion conditions are more critical than pure pitting conditions .
... ( Alloy 59 and Alloy C - 276 ) have 10 times lower crevice corrosion depth of attack than the lower molybdenum containing Alloy 22. In real world situations crevice corrosion conditions are more critical than pure pitting conditions .
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Contents
Scale Formation During Nucleate Boiling A Review | 26 |
Change in Boiling Mechanism with Time | 33 |
Heat Transfer Models in the Presence of Deposit | 43 |
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