Abstract
Cemented carbide materials are widely applied in cutting tools, drill tools, and mold fabrication due to their superior hardness and wear resistance. Producing cemented carbide parts via the laser powder bed fusion (L-PBF) method has the advantage of fabricating complex structures with a rapid manufacturing speed; however, they were underdeveloped due to their low density and crack formation on the blocks. This work studied the effect of different substrates including 316L substrates, Ni200 substrates, and YG15 substrates on the forming quality of WC-17Co parts fabricated by L-PBF, with the aim of finding the optimal substrate for fabrication. The results revealed that the Ni200 substrates had a better wettability for the single tracks formation than other substrates, and bonding between the built block and the Ni200 substrate was firm without separation during processing with a large range of laser energy inputs. This guaranteed the fabrication of a relatively dense block with fewer cracks. Although the high laser energy input that led to fine crack formation on the blocks formed on the Ni200 substrate, it was found to be better suited to restricting cracks than other substrates.
Highlights
The cemented carbide part was produced by the powder metallurgy (PM) method
It cracks were produced on the single tracks
Was found that the morphology of the single tracks varied with the laser powers and the micrographs of single tracks and reveals that all single tracks formed on the YG15 substrate substrates
Summary
Due to their superior hardness, anti-thermal expansion, and excellent wear-resistance, cemented carbide parts were widely applied in cutting tools, geographical engineering, and mold fabrication [1,2,3]. The cemented carbide part was produced by the powder metallurgy (PM) method. In this method, the cemented carbide powders (i.e., the mixture powder of WC powders and binder powders such as Co, Ni, Fe) were put into designed molds and sintered under high-temperature and high-pressure conditions to fabricate the part [4,5]. Constrained by the high-pressure processing conditions in the traditional PM method, the mold could not be too complex in shape. There are significant limitations in fabricating cemented carbide with complex shapes
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