Litcius/Paper detail

Ir–Zr coating through a pack cementation method for ultra-high temperature applications

Fayuan Li, Li’an Zhu, Kaili Zhang, Zhen Wang, Yicong Ye, Shun Li, Yu Tang, Shuxin Bai

2024Journal of Materials Research and Technology10 citationsDOIOpen Access PDF

Abstract

An Ir–Zr intermetallic coating was prepared onto Re/Ir coated graphite through a pack cementation method. The microstructure, nanoindentation and ablation behaviors of the coating system were investigated. The Ir–Zr coating was about 20 μm thick and consisted of 4 intermetallic phases which showed a quasi-gradient transition in composition. Nanoindentation measurements indicated that most of the intermetallic phases had higher hardness but lower Young's modulus compared to pure iridium. By ablation test in a high-frequency plasma wind tunnel, the heat flux limit of the Ir–Zr coating was measured to be about 6.1 MW/m2, and the endurance time was about 100 s under this condition. The coating failed at ∼2240 °C during the ablation test when the iridium melted, but the unfused parts remained complete and in good adhesion with the iridium beneath. The average normal emissivity between 2 and 5 μm of the sample was measured to be ∼0.82 at around 2092 °C before failure, which was higher than pure iridium and bulk ZrO2.

Topics & Concepts

Materials scienceNanoindentationIntermetallicIridiumCoatingMicrostructureCementation (geology)MetallurgyComposite materialAlloyCementCatalysisChemistryBiochemistryNuclear Materials and PropertiesMetal and Thin Film MechanicsHigh-Temperature Coating Behaviors
Ir–Zr coating through a pack cementation method for ultra-high temperature applications | Litcius