Effects of different thicknesses of filler metal on mechanical and metallurgical properties of brazed joints of tungsten carbide and carbon steel |
Paper ID : 1497-UFGNSM-FULL |
Authors: |
Abstract: |
Joining of hard metals such as, cemented tungsten carbides, to structural steels received much attention due to its compensatory properties. The most important problem is their different atomic structure which leads to high induced thermal stresses. Vacuum brazing is one of the choices that provide most of the desired characteristics. This study focused on vacuum brazing of WC-Co hard metal to carbon steel in an electrical tube furnace using Ag-Cu-Ti as filler material. The process has been conducted using various filler metal thicknesses (100, 250 and 500μm) at a constant temperature of 850 °C. The effect of process parameters on the joint microstructure has been investigated using optical microscopy and scanning electron microscopy (SEM). Moreover, the shear strength of the joints has been determined. |
Keywords: |
Key words: vacuum brazing, filler metal, cemented carbides, WC-Co, hard metal. |
Status : Paper Accepted (Poster Presentation) |