【摘 要】
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To improve the properties of Babbitt alloys, Ni-coated-graphite-reinforced Babbitt metal composite specimens were prepared via se-lective laser melting (SLM), and the composites microstructures, mechanical properties, and tribological properties were stud
【机 构】
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School of Materials Science and Engineering, University of Science and Technology Beijing, Beijing 1
论文部分内容阅读
To improve the properties of Babbitt alloys, Ni-coated-graphite-reinforced Babbitt metal composite specimens were prepared via se-lective laser melting (SLM), and the composites microstructures, mechanical properties, and tribological properties were studied through scan-ning electron microscopy (SEM), shear testing, and dry-sliding wear testing, respectively. The results showed that most of the nickel-coated graphite (NCGr) particles were distributed at the boundaries of laser beads in the cross section of the SLM composite specimens. Microcracks and microvoids formed at the boundaries of laser beads where NCGr particles accumulated. Both the shear strength and the friction coefficient of the SLM composite specimens decreased with increasing NCGr content. The shear strength and the friction coefficient of the SLM compos-ite sample with 6wt% NCGr were approximately 20% and 33% lower than those of the NCGr-free sample, respectively. The friction mechan-ism changed from plastic shaping furrow to brittle cutting with increasing NCGr content. A practical Babbitt material with a lower friction coefficient and sufficient strength can be obtained by controlling the NCGr particle dispersion; this can be achieved by choosing NCGr particles with a thicker Ni layer and precisely controlling the laser energy input during the SLM process.
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