Litcius/Paper detail

Description of the New Eutectic Al-Ca-Cu System in the Aluminum Corner

Т. К. Akopyan, Н. А. Белов, N. V. Letyagin, С. О. Черкасов, X. D. Nguen

2023Metals15 citationsDOIOpen Access PDF

Abstract

The structure of the new ternary eutectic Al-Ca-Cu system considered as a replacement for the ternary eutectic system Al-Ce-Cu widely used for additive manufacturing has been studied using experimental techniques. The liquidus projection of the Al-Ca-Cu system in the aluminum corner has been suggested based on experiential studies of the microstructure and phase composition of model alloys. The suggested structure of the diagram has two quasi-binary sections: (Al)-Al27Ca3Cu7 and (Al)-Al8CaCu4 and three invariant eutectic transformations: L→(Al) + (Al,Cu)4Ca + Al27Ca3Cu7 (at 5.6 wt.% Ca, 4.5 wt.% Cu, 595 °C), L→(Al) + Al27Ca3Cu7 + Al8CaCu4 (at 2.2 wt.% Ca, 13.5 wt.% Cu, 594 °C) and L→(Al) + Al8CaCu4 + Al2Cu (at 0.5 wt.% Ca, 34 wt.% Cu, 544 °C). The limit solubility of copper in aluminum solid solution (Al) at 530 °C reaches ~5.1 wt.% in the ternary phase field (Al) + Al8CaCu4 + Al2Cu and drops to ~2.4 wt.% in the (Al) + Al8CaCu4 + Al27Ca3Cu7 ternary phase field. For the example of the model ternary hypoeutectic alloys with a predominant content of the eutectic (Al,Cu)4Ca phase, it has been shown that the system is promising for designing new eutectic-type alloys with a natural composite structure.

Topics & Concepts

Eutectic systemLiquidusMaterials sciencePhase diagramTernary operationTernary numeral systemAluminiumMetallurgyMicrostructureCopperPhase (matter)ThermodynamicsAlloyChemistryPhysicsComputer scienceOrganic chemistryProgramming languageAluminum Alloy Microstructure PropertiesAluminum Alloys Composites PropertiesAdditive Manufacturing Materials and Processes