Abstract
The effects of Electron Beam Welding on solidification microstructure, texture, microhardness and mechanical properties were investigated in high purity niobium weld specimens. The welds have an equiaxed microstructure with a 1 mm grain size in the fusion zone, 100 /spl mu/m in the heat affected zone (HAZ) and 50 /spl mu/m in the parent metal. The fusion zone had slightly higher microhardness values despite having a large grain size, while the unaffected material had the lowest microhardness. The texture in the weld consisted of a strong {111} fiber texture in the center and a mix of {111} - {100} components on the surface. Tensile tests of specimens gave /spl sigma//sub y/ = 60 MPa, but the UTS and elongation for weld specimens were lower than the parent material (137 vs. 165 MPa, 32% vs. 58%). The properties and microstructure of the weld are discussed in terms of optimizing the SRF cavity.
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