Improving the Corrosion Resistance of API X56 and API X70 Pipeline Steels by Hot Dip Aluminization

The external surface of the pipeline steels can be protected from corrosion by cathodic protection and a suitable coating system. But to protect the internal surface of steel pipelines from corrosion is always a challenge. In the current study, a protective aluminum coating was applied on the intern...

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Bibliographic Details
Published in:Key engineering materials 2021-02, Vol.875, p.315-321
Main Authors: Karim, Muhammad Ramzan Abdul, Ahmad, Akhlaq, Ul Haq, Ehsan, Raza, Syed Abbas, Daniel, Sanam, Khan, Khurram Imran
Format: Article
Language:English
Subjects:
Aluminum
Aluminum coatings
Aluminum oxide
Application programming interface
Cathodic coating (process)
Cathodic protection
Corrosion environments
Corrosion inhibitors
Corrosion prevention
Corrosion rate
Corrosion resistance
Corrosion resistant steels
Corrosion tests
Dipping
High strength low alloy steels
Hot dip aluminizing
Immersion coating
Marine corrosion
Photomicrographs
Protective coatings
Room temperature
Scanning electron microscopy
Sodium chloride
Steel
Structural steels
Substrate inhibition
Weight loss
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Summary:The external surface of the pipeline steels can be protected from corrosion by cathodic protection and a suitable coating system. But to protect the internal surface of steel pipelines from corrosion is always a challenge. In the current study, a protective aluminum coating was applied on the internal surface of steel pipeline grades API X56 and API X70 by hot dip aluminization process to minimize the cost of inhibitors. The steel substrates were dipped in the hot aluminum bath, whose temperature was maintained at 720 °C, for three different dipping times (5, 7.5 and 10 minutes) and then permitted to cool to room temperature. The coated specimens were characterized in terms of their structure and composition by using scanning electron microscopy (SEM) and X-ray diffraction (XRD). SEM micrographs analysis reveal that the hot dip aluminized specimens gave an unwavering and well adherent interface which is essential for corrosion resistance of the substrates. The corrosion behavior was evaluated by weight loss method in case of sweet corrosion (in 1.0 % NaCl + CO2 environment) and, by electrochemical potentiodynamic polarization tests for marine corrosion (in 3.5% NaCl environment). The sweet corrosion rates showed severe material loss (14.17 mpy for API X56 and 6.6 mpy in case of API X70) of uncoated samples as compared to the aluminized samples which showed no corrosion at all even after one week due to the passive layer of Al2O3. Whereas the marine corrosion of aluminized specimens was also reduced to 0.11 mpy (coated specimens) from 0.57 mpy (uncoated specimens).
ISSN:1013-9826
1662-9795
1662-9795
DOI:10.4028/www.scientific.net/KEM.875.315