The alloy (AI-Cu-Mg) alloy important one dating back to the series (2xxx) where copper foundries basic element which represents the number (2), the study relied on foundries add elements boron (B) and titanium...The alloy (AI-Cu-Mg) alloy important one dating back to the series (2xxx) where copper foundries basic element which represents the number (2), the study relied on foundries add elements boron (B) and titanium (Ti) and then use a heat treatment (homogenizing process) to improve the corrosion resistance in saline (NaC1 3.5%) of the base alloy (A1-Cu-Mg), was prepared four types of alloys (A, B, C, D) depending on the chemical composition. The results showed that the corrosion resistance in saline solution was the best resistance in the alloy (D) (A1-2% Cu-2% Mg-0.1% B-1.0% Ti) compared with the rest of bullion when an examination of corrosion of the alloy prepared after homogenizing. But by examining the surface roughness of the alloy ingot turned out that (D) is softer than the rest of the surface alloys and this is due to the addition of boron and titanium together increases surface smoothness in alloys because it works to reduce the grain size.展开更多
文摘The alloy (AI-Cu-Mg) alloy important one dating back to the series (2xxx) where copper foundries basic element which represents the number (2), the study relied on foundries add elements boron (B) and titanium (Ti) and then use a heat treatment (homogenizing process) to improve the corrosion resistance in saline (NaC1 3.5%) of the base alloy (A1-Cu-Mg), was prepared four types of alloys (A, B, C, D) depending on the chemical composition. The results showed that the corrosion resistance in saline solution was the best resistance in the alloy (D) (A1-2% Cu-2% Mg-0.1% B-1.0% Ti) compared with the rest of bullion when an examination of corrosion of the alloy prepared after homogenizing. But by examining the surface roughness of the alloy ingot turned out that (D) is softer than the rest of the surface alloys and this is due to the addition of boron and titanium together increases surface smoothness in alloys because it works to reduce the grain size.
