Prospect of Seawater Steel Structure Corrosion Study for Sustainable Development in Indonesia as the Tropical Country

Suseno, Widija and Hartoko, Agus (2015) Prospect of Seawater Steel Structure Corrosion Study for Sustainable Development in Indonesia as the Tropical Country. Proceedings of International Conference on Concrete and Infrastructure 2015. pp. 1-6. ISSN 978-602-6865-00-7 (Unpublished)

[img] Text

Download (8MB)


Current and future development of coastal and ocean infrastructure for many goals such as for inter-ocean port, large scale shipyard and dockyard and also especially for coastal and ocean oil energy source development and exploitations has become a significant need. Thus has become a focus point around the world, which provides a huge marketing demand for the steel used in ocean engineering. Great potential study to develop steel with low cost and outstanding corrosion resistance to seawater. Many countries have developed sea-water corrosionresisting steel, such as Mariner steel of America, Aps20A steel of France and Mariloy steel of Japan, which belongs to Ni- Cu-P series, Cr- Al series and Cu- Cr- Al series, respectively. Nowadays, people started to pay more attention to the effect of tin element on corrosion resistant property, especially after the successful development of high-tensile corrosion resistant steel containing tin in Japan in 201L Many further study attempts to evaluate the effect of tin on corrosion resistant properties in seawater corrosion-resisting low alloy steel. As well as increasing interest in using magnesium and its alloys because of their high strength to weight ratio, low density, high thermal conductivity, good ductility, high dimensional stability, maximum absorption of . vibration, good electromagnetic, superior shielding and damping characteristics, high stiffness, good machinability, excellent cast ability and recycling ability.

Item Type: Article
Subjects: > 620 Engineering > 624 Civil engineering
> 620 Engineering > 624 Civil engineering > Civil Engineering > Iron and Steel
Divisions: Faculty of Engineering > Department of Civil Engineering
Depositing User: Mrs Christiana Sundari
Date Deposited: 17 Sep 2020 08:36
Last Modified: 17 Sep 2020 08:36

Actions (login required)

View Item View Item