The use of ground blast furnace slag, chrome slag and corn stem ash mixture as a coating against corrosion

[Display omitted] ► Ground blast furnace slag (GBFC), chrome slag (CS) and corn stem ash (CSA) are examined for corrosion resistant coat. ► Cases tested are bare iron, pitch coated iron and iron coated with foregoing stuff. ► Potential differences were 0.501, 0.363 and 0 V, repectively, the last mea...

Full description

Saved in:
Bibliographic Details
Published inConstruction & building materials Vol. 25; no. 11; pp. 4197 - 4201
Main Authors Binici, Hanifi, Aksogan, Orhan
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.11.2011
Elsevier B.V
Subjects
Atmospheric carbon dioxide
Cement
Chemical properties
Chrome slag
Chromium
Coating
Coatings industry
Corn stem ash
Corrosion
Ground blast furnace slag
Heating, ventilation, and air conditioning industry
Lime
Mechanical properties
Steel
Steel industry
Chrome slag
Coating
Ground blast furnace slag
Corrosion
Corn stem ash
Online AccessGet full text

Cover

More Information
Summary:[Display omitted] ► Ground blast furnace slag (GBFC), chrome slag (CS) and corn stem ash (CSA) are examined for corrosion resistant coat. ► Cases tested are bare iron, pitch coated iron and iron coated with foregoing stuff. ► Potential differences were 0.501, 0.363 and 0 V, repectively, the last meaning no corrosion. ► The corrosion rate decreased with the increase of reactive SiO 2 in the coat material. ► GBFC, CS and CSA are advisable coating materials against corrosion of rebars in concrete. The ground blast furnace slag (GBFC), chrome slag (CS) and corn stem ash (CSA), produced following a number of processes, were mixed with pitch in different proportions in order to increase adherence. Iron plates were then coated with this mixture. The coated and uncoated plates were left to corrode in a NaCl solution (35 g/L NaCl). The potential differences of the specimens were measured after they were kept in the solution for a month by electrodes. The potential difference for the uncoated iron plates (iron plates without GBFC, CS and CSA) was approximately 0.501 V. For those coated with pitch, this value was 0.363 V. On the other hand, the potential difference of the coated iron electrodes was determined to be 0 V revealing the absence of corrosion after the NaCl solution treatment and the suitability for the use of the ground blast furnace slag, chrome slag and corn stem ash as coating materials.
ISSN:0950-0618
1879-0526
DOI:10.1016/j.conbuildmat.2011.04.057