4.7 Article

Impact-abrasive wear resistance of high alumina ceramics and ZTA

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WEAR
卷 522, 期 -, 页码 -

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ELSEVIER SCIENCE SA
DOI: 10.1016/j.wear.2023.204700

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Impact-abrasion; Ceramics; Alumina; ZTA; Fracture toughness; Tribology

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In this study, various commercial alumina ceramics and more expensive Zirconia Toughened Alumina (ZTA) were tested for their wear resistance under impact load conditions. It was found that different ceramic materials exhibited different wear behaviors. High alumina content and 25% ZTA showed the best wear resistance.
In transport of raw materials abrasive wear resistance is a requirement, which can be met with alumina ceramics. At certain locations additional impact load occurs, exacerbating the wear loss. As literature on impact-abrasive wear of ceramics is scarce this topic will be researched in this work.We selected a variety of commercial alumina ceramics (90-96% Al2O3) and according to literature much more impact resistant - and substantially more expensive - Zirconia Toughened Alumina (ZTA, 20-25% Zr) used for wear resistant linings in impact dominated systems. We selected the Impeller-Tumbler test, an impact-abrasion test for wear evaluation of highly loaded ceramic edges. Two load regimes were evaluated for the abrasive, either corundum particles for severe load or steel balls for extreme load conditions. Correlation of wear results with the fracture toughness (K1C) and Vickers hardness of the materials is intended - material parameters used as measure for brittle failure of ceramics and wear resistance, respectively.The various ceramic materials showed very different wear behaviour under the impact-abrasive load. The 90% Al2O3 was least wear resistant under both load conditions. Interestingly large differences between the 92% types were found at extreme load conditions. The increase of alumina content to 95-96% showed remarkable benefits in both wear regimes. Best wear resistance against severe load was achieved by 25% ZTA, while it is comparable to the 95-96% high alumina types at extreme load.

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