Abstract:Diamond grits were brazed on the surface of the KSC82 steel wire by using Cu-Sn-Ti pre-alloy powder, diamond wire saw was produced with steel wire of diameter 0.7 mm and length 500 m. Diamond brazing interface features and elements distribution pattern were analyzed by using the scanning electron microscopy and energy disperse spectroscopy. Elements oxidation properties of diamond brazed interface were discussed, and fatigue bending test was carried out. The results show that the segregation of the alloying elements happens inside the Cu-Sn-Ti alloy after brazing heating treatment, Ti element segregates on the diamond brazed interface and its content increases 18 times. The diamond grains are brazed because of the titanium carbide. Titanium oxide phenomenon is found on the surface of Cu-Sn-Ti alloy, and only being found on Cu-Sn-Ti surface. Titanium oxide thickness depends on the argon flow Q during argon controlled atmosphere-brazing, when Q≥15 L/min, alloy surface shows gold color; when 10 L/min≤Q≤15 L/min, blue shows on the alloy surface; when 5 L/min≤Q≤10 L/min, alloy shows amaranth color. Bending fatigue crack occurs on the surface of KSC82 steel wire firstly, and cracks occurs in diamond brazing interface and growth along the circumferential of the wire saw to Cu-Sn-Ti alloy with the characteristics of opening mode crack when bending curvature increases.

Key words: Cu-Sn-Ti alloy; brazed diamond wire saw; interface characteristics; fatigue bending crack