Related references
Note: Only part of the references are listed.Influence of alloyed chromium on the atmospheric corrosion resistance of weathering steels
Yuhai Qian et al.
CORROSION SCIENCE (2013)
Study of the corrosion behavior of weathering steels in atmospheric environments
Zhifen Wang et al.
CORROSION SCIENCE (2013)
Effects of Cr, Ni and Cu on the Corrosion Behavior of Low Carbon Microalloying Steel in a CF- Containing Environment
Yanlei Zhou et al.
JOURNAL OF MATERIALS SCIENCE & TECHNOLOGY (2013)
Effects of Si as alloying element on corrosion resistance of weathering steel
J. A. Mejia Gomez et al.
CORROSION SCIENCE (2012)
Evolution of atmospheric corrosion of MnCuP weathering steel in a simulated coastal-industrial atmosphere
Long Hao et al.
CORROSION SCIENCE (2012)
A proposal to evaluate the amount of corroded iron converted into adherent rust in steels exposed to corrosion
C. A. Barrero et al.
CORROSION SCIENCE (2011)
Corrosion protection and assessment of weathering steel highway structures
N. Damgaard et al.
JOURNAL OF CONSTRUCTIONAL STEEL RESEARCH (2010)
Effects of chloride concentration, immersion time and steel composition on the spinel phase formation
F. R. Perez et al.
MATERIALS CHEMISTRY AND PHYSICS (2009)
A new interpretation of the corrosion loss processes for weathering steels in marine atmospheres
R. E. Melchers
CORROSION SCIENCE (2008)
Effect of Ni on the ion-selectivity of rust layer on low alloy steel
Xinhua Chen et al.
MATERIALS LETTERS (2007)
Taxonomy for protective ability of rust layer using its composition formed on weathering steel bridge
Shuichi Hara et al.
CORROSION SCIENCE (2007)
Composition and protective ability of rust layer formed on weathering steel exposed to various environments
T. Kamimura et al.
CORROSION SCIENCE (2006)
Corrosion monitoring of nickel-containing steels in marine atmospheric environment
A Nishikata et al.
CORROSION SCIENCE (2005)
Magnetic property based characterization of rust on weathering steels
T Mizoguchi et al.
CORROSION SCIENCE (2005)
Control of Fe(O,OH)6 nano-network structures of rust for high atmospheric-corrosion resistance
M Kimura et al.
CORROSION SCIENCE (2005)
Changes in atmospheric corrosion rate caused by chloride ions depending on rain regime
F Corvo et al.
CORROSION SCIENCE (2005)
Clarification of chemical state for alloying elements in iron rust using a binary-phase potential-pH diagram and physical analyses
T Nishimura et al.
CORROSION SCIENCE (2003)
Effect of Co and Ni on the corrosion behavior of low alloy steels in wet/dry environments
T Nishimura et al.
CORROSION SCIENCE (2000)