Torsional strength and failure of copper alloy brazing joint

Abstract

The influences of contact pressures (2–47kPa) and amounts of filler (Cu–9Sn–7Ni–6P with 0.04–0.64mm thickness) on torsional strength and failure of Cu-alloy (Cu–35Zn–3Pb) brazing joint have been evaluated. Both contact pressure and amount of filler influenced joint characteristics, i.e. joint thickness, joint defect, joint microstructure, and torsional strength. The joint defects were the cavities from the imperfect wettability of melted filler metal on the substrate surface, and the entrapped gas within joint. The brazing joint with large joint thickness had high torsional strength because of its large volume of joint to absorb strain energy before the fracture. The cavities within brazing joint were the sites of crack initiation due to their high stress concentration. The crack propagated through brittle phases of Cu3P and cavities, and caused final fracture. After optimize the brazing process, the torsional strength was 360MPa, i.e. about 78% of the torsional strength of substrate.