From inside the book
Results 1-3 of 72
Page 32
It was demonstrated that under abiotic conditions , acetic acid can dissolve protective calcareous deposits and increase current density requirements in ca. 300 mA.cm2 when the metal was polarized at -900 mV vs. SCE .
It was demonstrated that under abiotic conditions , acetic acid can dissolve protective calcareous deposits and increase current density requirements in ca. 300 mA.cm2 when the metal was polarized at -900 mV vs. SCE .
Page 55
Results of the potentiostatic investigations on rotating disc electrodes > Results of disc electrodes 50 ° C The corrosion current density of all the alloys N08926 , N08028 and N06625 - Gr . 1 were investigated with 60 , 500 , 1,000 and ...
Results of the potentiostatic investigations on rotating disc electrodes > Results of disc electrodes 50 ° C The corrosion current density of all the alloys N08926 , N08028 and N06625 - Gr . 1 were investigated with 60 , 500 , 1,000 and ...
Page 125
Current density vs. time curve for SS in artificial seawater shows the characteristic shoulder shape related to the formation of the calcareous deposits . Then the current density decreases , reaching a quasi steady state after 24 h .
Current density vs. time curve for SS in artificial seawater shows the characteristic shoulder shape related to the formation of the calcareous deposits . Then the current density decreases , reaching a quasi steady state after 24 h .
What people are saying - Write a review
We haven't found any reviews in the usual places.
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 |
39 other sections not shown
Other editions - View all
Common terms and phrases
acid addition adhesion alloy anodic application attack biocide biofilm bubble carbon cathodic caused characteristics chemical chloride coatings composition concentration concrete containing cooling corrosion rate corrosion resistance cost decrease density depends deposit determined effect electrochemical Engineering environment equipment erosion evaluation experimental experiments Figure flow fluid formation formed fouling growth heat transfer higher impact important improved increase industrial influence inhibitor ions iron laboratory layer lower marine materials measurements mechanism metal method natural nickel observed obtained occurs operating organic oxide ozone paint particles passive performance phosphate pigment pitting plant potential present properties protection reaction reduced References removal samples scale seawater shown shows solution specimens stainless steel strength structure studied surface Table Technology temperature thickness treatment values various weld zinc