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Open Access Research Article Issue
Plasma-sprayed Al2O3–ZrO2 composite coatings with nano-eutectic structures for wear protection: A novel strategy based on feedstock powder design
Journal of Advanced Ceramics 2025, 14(10): 9221154
Published: 31 October 2025
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Thermally sprayed nanostructured ceramic coatings have demonstrated considerable potential for surface protection applications. Nevertheless, the regulation of their microstructure and mechanical properties remains challenging owing to the persistent dependence on reconstituted feedstocks. Herein, a novel nanoeutectic powder prepared by combustion synthesis-air atomization (CS-AA) is used in atmospheric plasma spraying (APS) to fabricate a nanostructured Al2O3–ZrO2 coating for wear protection. The composite coating has a bimodal microstructure featuring the coexistence of a fully melted (FM) region and a partially melted (PM) region. Significantly, the PM region exhibited a multicolony structure composed of fibrous or lamellar nanoeutectic phases with an average spacing of 65 nm. In contrast to the FM region, the PM region has a higher microhardness and contributes to the fracture toughness of the coating through mechanisms such as crack deflection, grain pulling-out, and bridging. An increase in plasma spray power facilitates deposition efficiency, coating densification, and intersplat bonding while causing a reduction in the proportion of the PM region. A coating sprayed at 57 kW exhibited optimized properties, with a microhardness of 1008.39±308.54 HV0.2, a toughness of 4.22±0.58 MPa·m1/2, and a wear rate of 5×10−5 mm3·N−1·m−1 under a 6 N load at 500 r·min−1. This work offers a novel idea for the design of thermal spraying feedstock and provides new insights into the performance optimization of nanostructured ceramic coatings.

Open Access Issue
A Review on the Preparation of Nanocomposite Oxide Ceramics by Solid State Phase Transformation Method
Advanced Ceramics 2023, 44(5-6): 385-396
Published: 01 October 2023
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Downloads:17

Oxide ceramics are the most widely used and most productive ceramic materials with high mechanical strength, electrical insulation performance, chemical stability, etc. They are widely used in aerospace, military defense, industrial production and other fields. However, the brittleness of oxide ceramics seriously restricts its wider application in cutting-edge fields. In order to solve this problem, scholars both domestically and internationally have begun to explore the solid state phase transition method for preparing fine nanostructured oxide composite ceramics in recent decades. They constructed the nano/submicron/micron scale structure of nanocomposite oxide ceramics by solid state phase transformation to improve their mechanical properties. This paper systematically reviews the effects of solid state phase transition method on the microstructure and properties of nanocomposite oxide ceramics, aiming to elucidate their related principles and processes, and provide references for the preparation of high-performance nanocomposite oxide ceramics.

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