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Laser powder bed fusion of diamond/N6 MMCs enabled by Ni-Ti coated diamond particles

Sheng Zhang, Minglu Ding, Lu Wang, Wenjun Ge, Wentao Yan

2022Materials & Design14 citationsDOIOpen Access PDF

Abstract

Metal matrix composites (MMCs) have received increasing attention and there is a growing interest in additive manufacturing (AM) of MMCs with complex shapes recently. However, it remains challenging to control the quality of composite powder for MMCs. In this study, the diamond particles are firstly coated with thin layers of Titanium and Nickel to ensure strong interface bonding with the Nickel matrix. The influence of ball milling parameters on the Ni-Ti coated diamond/N6 composite powder particles preparation and the effect of processing parameters during laser powder bed fusion (LPBF) on the densification of and defects in the fabricated samples are analyzed. In the ball milling stage, the results show that highly flowable composite powder particles for LPBF can be obtained under a ball milling time of 4 h, a speed of 250 rpm, and a ball-to-powder ratio of 2:1. With the optimized composite powder, a set of Ni-Ti coated diamond/N6 MMCs are further manufactured under the laser powers of 150, 160, and 170 W and scanning speed of 250 mm/s, the MMC samples have relative densities higher than 99%. Our study demonstrates the feasibility of manufacturing dense diamond/N6 and other similar MMCs with appropriate coating, ball-milling and LPBF parameters.

Topics & Concepts

Materials scienceDiamondComposite numberBall millMetallurgyCoatingComposite materialTitanium powderPowder coatingFusionMachiningTitaniumLinguisticsPhilosophyAdditive Manufacturing Materials and ProcessesAdditive Manufacturing and 3D Printing TechnologiesBone Tissue Engineering Materials
Laser powder bed fusion of diamond/N6 MMCs enabled by Ni-Ti coated diamond particles | Litcius