Microstructural Evolution, Mechanical Properties and Tribological Behavior of B4C-Reinforced Ti In Situ Composites Produced by Laser Powder Bed Fusion

Microstructural Evolution, Mechanical Properties and Tribological Behavior of B4C-Reinforced Ti In Situ Composites Produced by Laser Powder Bed Fusion

Based on the advantage of rapid net-shape fabrication, laser powder bed fusion (LPBF) is utilized to process B4C-reinforced Ti composites. The effect of volumetric energy density (VED) on the relative density, microstructural evolution, tensile properties and wear behaviors of B4C-reinforced Ti comp...

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Veröffentlicht in:Materials 2023-07, Vol.16 (13), p.4890
Hauptverfasser: Du, Jingguang, Ren, Yaojia, Liu, Xinyan, Xu, Feng, Wang, Xiaoteng, Zhou, Runhua, Baker, Ian, Wu, Hong
Format: Artikel
Sprache:eng
Schlagworte:
Boron carbide
Crack initiation
Crystallography
Density
Evolution
Interfacial bonding
Lasers
Load
Mechanical properties
Melting
Microstructure
Molecular composites
Net shape
Particulate composites
Particulates
Powder beds
Powder metallurgy
Residual stress
Specific gravity
Tensile properties
Titanium
Tribology
Ultimate tensile strength
Wear rate
Wear tests
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Zusammenfassung:Based on the advantage of rapid net-shape fabrication, laser powder bed fusion (LPBF) is utilized to process B4C-reinforced Ti composites. The effect of volumetric energy density (VED) on the relative density, microstructural evolution, tensile properties and wear behaviors of B4C-reinforced Ti composites were systematically investigated. The LPBF-ed samples with high relative density (>99%) can be achieved, while the pores and un-melted powders can be observed in the sample owing to the low energy input (33 J/mm3). The additive particulates B4C were transformed into needle-like TiB whiskers with nano-scale while C dissolved in the Ti matrix. Fine-scale grains (
ISSN:1996-1944
1996-1944
DOI:10.3390/ma16134890