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Abstract
This research uses Raman spectroscopy to explore differences after Microwave
Plasma Chemical Vapor Deposition (MPCVD) of diamond films on steel alloys (316L,
4140, and 1018) with a vanadium carbide interlayer to enhance adhesion and
compatibility. The study reveals that a soft vanadium carbide interlayer and the FCC
lattice match lead to a Ta-C film. The results of the graphite inhibition and diamond
deposition varied with the steel alloy underlayer composition. In the 316L steel alloy,
we successfully formed a thick, compressive strain-induced, sp3-bonded tetrahedral
amorphous carbon layer without graphite. The findings have wide-ranging applications
in environments demanding high durability and thermal conductivity.
