The formation and mechanism of oxides film on GCr15 bearing steel under indoor atmospheric exposure
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[1] Changwei Su,et al. Understanding in compositional phases of carbon steel rust layer with a long-term atmospheric exposure , 2022, Materials Letters.
[2] E. Han,et al. Characterization of machined surface quality and near-surface microstructure of a high speed thrust angular contact ball bearing , 2021 .
[3] X. An,et al. High-temperature aging time-induced composition and thickness evolution in the native oxides film on Sn solder substrate , 2021, Journal of Materials Science: Materials in Electronics.
[4] X. An,et al. A perspective on effect by Ag addition to corrosion evolution of Pb-free Sn solder , 2021 .
[5] X. An,et al. Temperature and NaCl deposition dependent corrosion of SAC305 solder alloy in simulated marine atmosphere , 2020 .
[6] P. Marcus,et al. Thermal stability of the passive film formed on 316L stainless steel surface studied by ToF-SIMS , 2020, Corrosion Science.
[7] E. Tada,et al. A Method for Determining the Corrosion Rate of a Metal under a Thin Electrolyte Film , 2015 .
[8] W. Ke,et al. Evolution of atmospheric corrosion of MnCuP weathering steel in a simulated coastal-industrial atmosphere , 2012 .
[9] W. Ke,et al. Evolution of corrosion of MnCuP weathering steel submitted to wet/dry cyclic tests in a simulated coastal atmosphere , 2012 .
[10] W. Ke,et al. Rusting Evolution of MnCuP Weathering Steel Submitted to Simulated Industrial Atmospheric Corrosion , 2012, Metallurgical and Materials Transactions A.
[11] W. Ke,et al. Atmospheric corrosion resistance of MnCuP weathering steel in simulated environments , 2011 .
[12] P. Marcus,et al. Role of pH and calcium ions in the adsorption of an alkyl N-aminodimethylphosphonate on steel: An XPS study , 2006 .
[13] S. Lyon. Materials science: A natural solution to corrosion? , 2004, Nature.
[14] Kazuhiko Noda,et al. Electrochemical Behavior of Rust Formed on Carbon Steel in a Wet/Dry Environment Containing Chloride Ions , 2000 .