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Abstract

The pack boronising experiments were carried out on the TC21 titanium alloy using monomer boron powder as the boriding agent with and without rare earth oxide CeO₂ respectively. The friction and wear behaviour of boride coated TC21 samples were evaluated using a pin on disc friction tester. The boride layers were investigated by means of X-ray diffraction, X-ray photoelectron spectroscopy, SEM and optical microscopy. The results show that the boride layers grown on TC21 consist of continuous top layer TiB₂ and sublayer TiB whiskers; with the addition of CeO₂ in the boriding agent, the grain size of boride layers is refined, the diffusion efficiency is increased and more TiB changes to TiB₂; the microhardness of the top layer is ∼3200 HV(10 g); without CeO₂, the friction coefficient of boride coated TC21 sample is ∼0·56, while with the addition of CeO₂, it is <0·2. The boride coated TC21 samples show a much better wear resistance than the TC21 substrate.

Keywords

Pack boronising Rare earth Titanium alloy Microstructure Friction and wear

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Effect of rare earth (RE) on pack boronising process of titanium alloy

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