Atomistic wear mechanisms in diamond: effects of surface orientation, stress, and interaction with adsorbed molecules

Atomistic wear mechanisms in diamond: effects of surface orientation, stress, and interaction with adsorbed molecules

Despite its unrivaled hardness, diamond can be severely worn during the interaction with others, even softer materials. In this work, we calculate from first-principles the energy and forces necessary to induce the atomistic wear of diamond and compare them for different surface orientations and pas...

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Bibliographic Details
Main Authors: Ta, Huong Thi Thuy, Tran, Nam Van, Righi, Maria Clelia
Other Authors: School of Materials Science and Engineering
Format: Journal Article
Language:English
Published: 2024
Subjects:
Engineering
Adsorbed Molecules
Atomistics
Online Access:https://hdl.handle.net/10356/173453
Description
Summary:Despite its unrivaled hardness, diamond can be severely worn during the interaction with others, even softer materials. In this work, we calculate from first-principles the energy and forces necessary to induce the atomistic wear of diamond and compare them for different surface orientations and passivation by oxygen, hydrogen, and water fragments. The primary mechanism of wear is identified as the detachment of the carbon chains. This is particularly true for oxidized diamond and diamonds interacting with silica. A very interesting result concerns the role of stress, which reveals that compressive stresses can highly favor wear, making it even energetically favorable.

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