Add to ORKGA 1019 steel, 6061-T6 aluminum and types 304, 316, 430, and 446 stainless steel were immersed for three years in a seawater test site near Galveston, Texas. Data are reported for both uniform and pitting corrosion rates of these alloys. For all of the alloys except the steel, the majority of the pits were found close to the barnacle attachment sites
Structural steel is widely used for critical infrastructure, such as offshore structures, ships, mar...
Abstract: The deep sea corrosion of ferrous alloys that undergo uniform corrosion without forming a ...
12s. Distribution/Availability Statement.12.V oCde Approved for public release; distribution is unli...
Biofouling studies relating to the cathodic protection of mildsteel, stainless steel and brass in se...
Corrosion behaviour and biofouling characteristics of mild steel in three different coastal locatio...
In 1941, an oil tanker named the S.S. Montebello sunk to the bottom of the ocean while still carryin...
The corrosion and biofouling characteristics of mild steel were investigated in the waters of the ...
Data for long-term marine immersion and half-tide corrosion loss and pitting of chromium-bearing and...
The influence of marine microbiological film formation on the free corrosion potentials of some allo...
In this work, periodic measurements of the physico-chemical and microbiological properties of seawat...
The modelling of both short- and long-term corrosion loss and maximum pit depth is increasingly of i...
Microbiologically influenced corrosion (MIC) of construction alloys used for subsea applications was...
Some of the world’s most ancient, but still viable, organisms have since the beginning of maritime c...
This article is a continuation of Part 1 (October 2006 MP) on the USS Arizona hull. It discusses add...
Initiation of pitting of mild steel in seawater usually is attributed to anode-cathode reactions set...
Structural steel is widely used for critical infrastructure, such as offshore structures, ships, mar...
Abstract: The deep sea corrosion of ferrous alloys that undergo uniform corrosion without forming a ...
12s. Distribution/Availability Statement.12.V oCde Approved for public release; distribution is unli...
Biofouling studies relating to the cathodic protection of mildsteel, stainless steel and brass in se...
Corrosion behaviour and biofouling characteristics of mild steel in three different coastal locatio...
In 1941, an oil tanker named the S.S. Montebello sunk to the bottom of the ocean while still carryin...
The corrosion and biofouling characteristics of mild steel were investigated in the waters of the ...
Data for long-term marine immersion and half-tide corrosion loss and pitting of chromium-bearing and...
The influence of marine microbiological film formation on the free corrosion potentials of some allo...
In this work, periodic measurements of the physico-chemical and microbiological properties of seawat...
The modelling of both short- and long-term corrosion loss and maximum pit depth is increasingly of i...
Microbiologically influenced corrosion (MIC) of construction alloys used for subsea applications was...
Some of the world’s most ancient, but still viable, organisms have since the beginning of maritime c...
This article is a continuation of Part 1 (October 2006 MP) on the USS Arizona hull. It discusses add...
Initiation of pitting of mild steel in seawater usually is attributed to anode-cathode reactions set...
Structural steel is widely used for critical infrastructure, such as offshore structures, ships, mar...
Abstract: The deep sea corrosion of ferrous alloys that undergo uniform corrosion without forming a ...
12s. Distribution/Availability Statement.12.V oCde Approved for public release; distribution is unli...