首页|Microstructure and mechanical properties of unalloyed molybdenum fabricated via wire arc additive manufacturing
Microstructure and mechanical properties of unalloyed molybdenum fabricated via wire arc additive manufacturing
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NSTL
Elsevier
Molybdenum is an important high-temperature structural material but has poor processability. Additive man-ufactured unalloyed Mo is generally very small and the mechanical properties is seldomly studied. In this work, wire arc additive manufacturing was adopted, and crack-free molybdenum parts with high-density (99.0%) and characteristic size of 20 mmx20 mmx120 mm were successfully fabricated by short-track scanning. The microstructure and mechanical properties of samples in both the as-deposited and heat-treated states were studied and compared. Large columnar grains were observed, which were basically along the <001> direction. Heat treatment leads to grain coarsening, and the elimination of some sub-grain boundaries. Due to the weak-ened effect of grain and sub-grain boundary hardening, the mechanical properties of heat-treated specimens were worse than that of as-deposited specimens at room temperature. Both of them exhibit brittle fracture features. Under high temperature, the ductile fracture is observed, and the as-deposited specimen has similar strength and ductility, compared with the heat-treated specimens, suggesting a weak role of grain and sub-grain boundary at high temperature. A large number of fragments were observed at the fracture surface after high-temperature tests, which was MoO3 by energy dispersive spectroscopy test.
NSTL
Elsevier
