| Abstract |
| This study investigated the high-temperature wear characteristics of Ta-10W alloy, composed of 90% tantalum and 10% tungsten, known for its high melting point, excellent corrosion resistance, and oxidation resistance. Wear tests were conducted using a ball-on-disc method with alumina balls at temperatures of 200℃, 400℃, 600℃, and 700℃. The results indicated that wear loss decreased (increasing wear resistance) from 200℃ to 600℃ due to the lubrication effect by oxide particles induced by Ta2O5, which enhanced wear resistance. However, at 700℃, a significant increase in wear loss was observed due to excessive oxide formation and the occurrence of cracks. Calculation of the wear rate revealed that it decreased as the temperature increased to 2.12×10-4 ㎣· N-1· m-1 at 200 ℃, 2.67×10-5 ㎣·N-1·m-1 at 400 ℃, and 4.21×10-6 ㎣· N-1· m-1 at 600 ℃. On the other hand, the wear rate increased at 700 ℃ to 3.87×10-4 ㎣· N-1· m-1. The wear track analysis results revealed distinct wear mechanisms at different temperatures. At 200℃, abrasive wear characterized by pits and furrows was dominant. At 400℃, adhesive wear became more prevalent with cleavage worn surfaces compared to the wear pattern at 200℃. At 600℃, fragmented oxides indicating pest oxidation were noted, while at 700℃, deep pits and cracks along with fragmented oxides were prevalent. X-ray diffraction (XRD) analysis results showed the presence of the α-Ta phase at 200℃, 400℃, and 600℃, with peak shifts indicating lattice expansion. In contrast, at 700℃, Ta2O5 peaks were present. Based on the findings, the high-temperature wear mechanism of Ta-10W alloy was also discussed. |
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| Key Words |
| Ta-10W alloy, High temperature wear, Ball-on-disc wear, Oxidation, Wear mechanism |
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