Zinc atmospheric corrosion is wellknown, and standards are available. In some applications, like gabion walls, Zn-Al alloys coatings have been proposed to protect steel wires, together with polymeric top coatings in aggressive environments. The aim of this article is to compare corrosion rates of Zn and Zn-Al coatings exposed to natural atmospheres with ISO standards prediction and accelerated tests. The corrosion rate of zinc alloys is lower than zinc, in both natural and accelerated exposure. The lack of medium-long term data in natural exposure makes it difficult to forecast actual behavior of zinc alloys, especially in more severe exposure conditions
Atmospheric factors, namely, time of wetness of corroding metal panels, panel temperature, and atmos...
The microsturcture and atmospheric corrosion of superplastic Zn-Al alloys with various Al contents w...
Copyright © 2012 C. I. Elsner et al. This is an open access article distributed under the Creative C...
Zinc atmospheric corrosion is wellknown, and standards are available. In some applications, like gab...
Atmospheric corrosion of galvanized steel is a well-known subject: many experimental results, intern...
The humid tropical climate parameters and airborne salinity are generally considered important facto...
Atmospheric corrosion may cause serious damage to metallic structures and equipments. Because of the...
The long-term atmospheric corrosion performance of rolled zinc and three thermal-sprayed (TS) zinc m...
Zinc or 55%Al-Zn alloy-coated steel sheets, either bare or covered by different painting systems, ha...
his paper summarises the results obtianed in the MICAT (Mapa Ibero-Americano de Corrosão Atmosférica...
The atmospheric corrosion of zinc in pure marine coastal atmospheres has not been extensively studie...
This study focuses on the influence of specific parameters on wire corrosion with special emphasis o...
This paper presents the results obtained in a 5 year study of the galvanic protection afforded to th...
The atmospheric corrosion behavior of zinc in the presence of NaCl has been investigated using well-...
Corrosion rate (Progressive) of mild steel (MS), zinc and aluminum have been determined under outdoo...
Atmospheric factors, namely, time of wetness of corroding metal panels, panel temperature, and atmos...
The microsturcture and atmospheric corrosion of superplastic Zn-Al alloys with various Al contents w...
Copyright © 2012 C. I. Elsner et al. This is an open access article distributed under the Creative C...
Zinc atmospheric corrosion is wellknown, and standards are available. In some applications, like gab...
Atmospheric corrosion of galvanized steel is a well-known subject: many experimental results, intern...
The humid tropical climate parameters and airborne salinity are generally considered important facto...
Atmospheric corrosion may cause serious damage to metallic structures and equipments. Because of the...
The long-term atmospheric corrosion performance of rolled zinc and three thermal-sprayed (TS) zinc m...
Zinc or 55%Al-Zn alloy-coated steel sheets, either bare or covered by different painting systems, ha...
his paper summarises the results obtianed in the MICAT (Mapa Ibero-Americano de Corrosão Atmosférica...
The atmospheric corrosion of zinc in pure marine coastal atmospheres has not been extensively studie...
This study focuses on the influence of specific parameters on wire corrosion with special emphasis o...
This paper presents the results obtained in a 5 year study of the galvanic protection afforded to th...
The atmospheric corrosion behavior of zinc in the presence of NaCl has been investigated using well-...
Corrosion rate (Progressive) of mild steel (MS), zinc and aluminum have been determined under outdoo...
Atmospheric factors, namely, time of wetness of corroding metal panels, panel temperature, and atmos...
The microsturcture and atmospheric corrosion of superplastic Zn-Al alloys with various Al contents w...
Copyright © 2012 C. I. Elsner et al. This is an open access article distributed under the Creative C...
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