Tailoring the composition and microstructure of W-based coatings on metallic sheets by varying the type and combination of milling balls
Romankov S. Park Y.C. Miyauchi Y. Louzguine‑Luzgin D.V. Komarov S.
5 December 2023Elsevier Ltd
Journal of Alloys and Compounds
2023#966
W-based alloyed coatings with variable W content (90, 80, 75, and 55 wt%) were fabricated on Ti and steel substrates using a mechanically vibrated vial with different combinations of W milling balls. The resulting W-based coatings displayed heterogeneous nanocomposite structures; the composition and microstructures of which could be tailored through the selection of milling balls. The average size of the W grains ranged from 6 to 10 nm and increased with decreasing W content. The 90, 80, and 75 wt% W coatings exhibited amorphous matrix interphases; the 75 W coating also displayed amorphous and crystalline multicomponent oxide dispersions. The formation of these structures was governed by the intensity of milling and was driven by plastic deformation, deformation-induced intermixing, alloying, and atomic interactions. The 90 W coating exhibited the highest hardness value of 1200 HV, which decreased with an increasing fraction of the matrix phase. The W coatings greatly enhanced the wear resistance of the substrate surface with the wear rate value being seven times lower than that of an uncoated Ti surface. These results demonstrate the efficacy of using W milling balls to fabricate W-based coatings on various metallic substrates and the potential for tailoring their properties to specific applications.
Amorphization , Coating materials , Mechanical alloying , Metal matrix composites , Nanostructured materials , Nuclear reactor materials
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Advanced Institute for Materials Research (WPI‑AIMR), Tohoku University, Sendai, Japan
Satbayev University, Institute of Physics and Technology, Almaty, Kazakhstan
National Nanofab Center, Daejeon, South Korea
Department of Metallurgy, Materials Science and Materials Processing, Graduate School of Engineering, Tohoku University, Sendai, Japan
MathAM-OIL, National Institute of Advanced Industrial Science and Technology (AIST), Sendai, Japan
Advanced Institute for Materials Research (WPI‑AIMR)
Satbayev University
National Nanofab Center
Department of Metallurgy
MathAM-OIL
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