TY - GEN
T1 - Corrosion performance of thermal sprayed aluminum coating in offshore mooring chains
AU - Exposito, Aintzane
AU - Jorcin, Jean Baptiste
AU - Bayon, Raquel
AU - Arredondo, Alberto
AU - Rodriguez, Elena
N1 - Publisher Copyright:
Copyright 2017, The Society of Naval Architects and Marine Engineers.
PY - 2017
Y1 - 2017
N2 - With 39% of mooring chain failures related to different corrosion mechanisms of Floating Production Units [6]. finding a solution to delay or avoid this degradation phenomenon has become one of the offshore industry main concerns. Thermal Sprayed Aluminum (TSA), aluminum based coating, has been used as corrosion protection in chains since 2001. However, its behavior and durability in different conditions remains a question. In the present work, corrosion behavior of the TSA is analyzed and compared to base steel material, simulating real seawater conditions, including atmospheric, splash and immersed zones. In order to evaluate TSA performance, the coating effectiveness was measured under different ageing processes and mechanical actions. Additionally, the capability of the coating to tolerate damages and its response under different cathodic potential levels were assessed. The analyses were conducted combining electrochemical techniques. One-year tests were performed on components both in laboratory, under controlled conditions, and in real environment, using 3D scanning methods to calculate corrosion rates afterward the exposition. Components results were aligned with the previously obtained results on samples. Results showed the benefits of applying TSA to offshore mooring chains by significantly enhancing corrosion resistance.
AB - With 39% of mooring chain failures related to different corrosion mechanisms of Floating Production Units [6]. finding a solution to delay or avoid this degradation phenomenon has become one of the offshore industry main concerns. Thermal Sprayed Aluminum (TSA), aluminum based coating, has been used as corrosion protection in chains since 2001. However, its behavior and durability in different conditions remains a question. In the present work, corrosion behavior of the TSA is analyzed and compared to base steel material, simulating real seawater conditions, including atmospheric, splash and immersed zones. In order to evaluate TSA performance, the coating effectiveness was measured under different ageing processes and mechanical actions. Additionally, the capability of the coating to tolerate damages and its response under different cathodic potential levels were assessed. The analyses were conducted combining electrochemical techniques. One-year tests were performed on components both in laboratory, under controlled conditions, and in real environment, using 3D scanning methods to calculate corrosion rates afterward the exposition. Components results were aligned with the previously obtained results on samples. Results showed the benefits of applying TSA to offshore mooring chains by significantly enhancing corrosion resistance.
KW - Corrosion
KW - Offshore mooring chain
KW - Thermal Sprayed Aluminum
UR - http://www.scopus.com/inward/record.url?scp=85031001383&partnerID=8YFLogxK
M3 - Conference contribution
AN - SCOPUS:85031001383
T3 - 22nd Offshore Symposium 2017 - Redefining Offshore Development: Technologies and Solutions
SP - 68
EP - 82
BT - 22nd Offshore Symposium 2017 - Redefining Offshore Development
PB - Society of Naval Architects and Marine Engineers (SNAME) Texas Section
T2 - 22nd Offshore Symposium 2017 - Redefining Offshore Development: Technologies and Solutions
Y2 - 2 February 2017
ER -