Corrosion Resisting Characteristics Of Iron Modified 90:10 Cupro Nickel Alloy

“…Nickel and iron are generally accepted to improve corrosion resistance through modification of aged surface oxide layers [8,17].…”

“…The material is used in a wide range of marine applications [2] including heat exchange systems, water de-salination and hull sheathing [3][4][5][6]. The favourable long-term corrosion characteristics of the alloy [7,8] are dominated by the formation of relatively resistant corrosion product-based films [9][10][11][12][13]. The 90-10 copper-nickel alloys are considered to be more susceptible to flow influenced corrosion than the 70-30 copper-nickel range of alloys and, for the lower nickel alloy-types, seawater velocities are usually limited to 3.5 m s −1 for pipe diameters >100 mm [1].…”

Electrochemistry of non-aged 90–10 copper–nickel alloy (UNS C70610) as a function of fluid flow

“…Nickel and iron are generally accepted to improve corrosion resistance through modification of aged surface oxide layers [8,17].…”

“…The material is used in a wide range of marine applications [2] including heat exchange systems, water de-salination and hull sheathing [3][4][5][6]. The favourable long-term corrosion characteristics of the alloy [7,8] are dominated by the formation of relatively resistant corrosion product-based films [9][10][11][12][13]. The 90-10 copper-nickel alloys are considered to be more susceptible to flow influenced corrosion than the 70-30 copper-nickel range of alloys and, for the lower nickel alloy-types, seawater velocities are usually limited to 3.5 m s −1 for pipe diameters >100 mm [1].…”

Electrochemistry of non-aged 90–10 copper–nickel alloy (UNS C70610) as a function of fluid flow

“…The 90 Cu-10 Ni alloys were developed from the very successful 70 Cu-30 Ni alloys as a result of conservation of nickel as a strategic metal during World War II [242]. About 1.5% iron increased resistance to erosion-corrosion, but additions >3.5% increase susceptibility to deposit attack and biofouling [243].…”

“…The occurrence of microbial communities on copper alloys has been discussed in detail [222,242,[245][246][247][248][249]. Efird [250] recorded that "heavy sliming" was present after 12 months exposure in the sea for a range of copper alloys.…”

Copper and Copper Alloys

“…Em 1930 foi descoberto que pequenas adições de ferro e manganês provocavam efeitos benéficos em relação à resistência à corrosão-erosão. (2,5,6) Atualmente, entre as ligas cuproníquel comercialmente importantes, a liga Cu10Ni (UNS C70600) é a mais utilizada por oferecer boa resistência à corrosão aliada a menor custo. Apesar das boas características de resistência à corrosão, com a crescente utilização de tubos da…”

PROPRIEDADES MECÂNICAS E RESISTÊNCIA À CORROSÃO DA LIGA Cu10Ni-3Al-1,3Fe APÓS ENDURECIMENTO POR PRECIPITAÇÃO