Improvement of corrosion resistance of titanium by co-implantation

“…Furthermore, tantalum (Ta) was an element that could preferentially suppress the dissolution of titanium. This conclusion was in agreement with that of bulk alloying with tantalum, which showed improvement of corrosion resistance in hydrochloric acid solution for titanium steel (Sugizaki et al 1996). Being combined with molybdenum, nickel, palladium, or tantalum, the corrosion resistance of titanium had been remarkably improved.…”

“…Based on lab experiments and engineering practice, polyurea, epoxy glass coatings, fiber reinforced plastics, corrosion resistant steels, titanium alloy and foam glass blocks are widely used (Ni et al 2002;González-Guzmán et al 2010;Moser et al 2011;Jeon et al 2011;Nam et al 2010;Sugizaki et al 1996;Song et al 2011;Soo Park et al 1999). In this study, polyurea and vinyl ester glass flake (VEGF) were classified as the coating materials; titanium alloy, sulfuric acid dew corrosion resistant steel (ND) and fiberglass reinforced plastics (FRP) were selected as the lining materials; foam glass blocks were deemed as the lightweight insulation products.…”

“…However, alloying with nickel and molybdenum could substantially improve the corrosion resistance. Molybdenum provided protection against corrosion attack through stable passivation in aggressive environments, while nickel promoted the formation of nickel titanium and the passivity of titanium in the acid environments (Sugizaki et al 1996;Bloyce et al 1998). The complementary effects of molybdenum with nickel were to enhance the corrosion behavior of titanium in sulfuric acid solution (Sugizaki et al 1996;Blanco-Pinzon et al 2005).…”

“…The outstanding corrosion resistance of titanium alloy is achieved by the complementary effect of co-implantation with metal ions. Co-implantation is a possible process for attaining excellent corrosion protection of titanium against aggressive environments (Sugizaki et al 1996). Foam glass blocks are mainly composed of borosilicate.…”

Prevention of stack corrosion under wet flue gas desulfurization conditions in a coal-fired power plant: performance analysis and comparative study

“…Furthermore, tantalum (Ta) was an element that could preferentially suppress the dissolution of titanium. This conclusion was in agreement with that of bulk alloying with tantalum, which showed improvement of corrosion resistance in hydrochloric acid solution for titanium steel (Sugizaki et al 1996). Being combined with molybdenum, nickel, palladium, or tantalum, the corrosion resistance of titanium had been remarkably improved.…”

“…Based on lab experiments and engineering practice, polyurea, epoxy glass coatings, fiber reinforced plastics, corrosion resistant steels, titanium alloy and foam glass blocks are widely used (Ni et al 2002;González-Guzmán et al 2010;Moser et al 2011;Jeon et al 2011;Nam et al 2010;Sugizaki et al 1996;Song et al 2011;Soo Park et al 1999). In this study, polyurea and vinyl ester glass flake (VEGF) were classified as the coating materials; titanium alloy, sulfuric acid dew corrosion resistant steel (ND) and fiberglass reinforced plastics (FRP) were selected as the lining materials; foam glass blocks were deemed as the lightweight insulation products.…”

“…However, alloying with nickel and molybdenum could substantially improve the corrosion resistance. Molybdenum provided protection against corrosion attack through stable passivation in aggressive environments, while nickel promoted the formation of nickel titanium and the passivity of titanium in the acid environments (Sugizaki et al 1996;Bloyce et al 1998). The complementary effects of molybdenum with nickel were to enhance the corrosion behavior of titanium in sulfuric acid solution (Sugizaki et al 1996;Blanco-Pinzon et al 2005).…”

“…The outstanding corrosion resistance of titanium alloy is achieved by the complementary effect of co-implantation with metal ions. Co-implantation is a possible process for attaining excellent corrosion protection of titanium against aggressive environments (Sugizaki et al 1996). Foam glass blocks are mainly composed of borosilicate.…”

Prevention of stack corrosion under wet flue gas desulfurization conditions in a coal-fired power plant: performance analysis and comparative study

“…(e.g., References 3 through 10). Earlier work by the present The compound formation during implantation of metallic authors [4,5] revealed that implantation of noble metals (Ir, ions into titanium was studied by Sugizaki et al, [19,20] Pt, or Au) also improves the wear behavior.…”

Influence of annealing on depth distributions and microstructure of ion-implanted Ti6Al4V

Biocompatibility of Thin Films