Distribution of transition metal elements in an Al-Si-Cu-based alloy

An Al-Si-Cu-based cast alloy was modified with transition metal elements Zr, V and Ti to achieve enhanced mechanical performance at elevated temperatures. Multiple microstructural characterization techniques were used to investigate the solidification segregation behavior of these transition metal elements and their partitioning to the primary intermetallic phases and secondary precipitates. Three transition metal elements were shown to segregate into the dendrite center to varying degrees. Two primary intermetallic phases enriched with different amounts of transition metal elements were identified as D0(22) and D0(23) phases. Zr was observed to concentrate much more than V and Ti in the nano-size secondary L1(2) precipitates, which formed in the matrix during post-solidification heat treatment. (C) 2020 Acta Materialia Inc. Published by Elsevier Ltd. All rights reserved.

Automated summary

A modified Al-Si-Cu-based cast alloy with transition metal elements Zr, V and Ti exhibited enhanced mechanical performance at elevated temperatures. The segregation behavior and partitioning of these transition metal elements were investigated using multiple microstructural characterization techniques. The study found that the transition metal elements segregated to varying degrees into the dendrite center and enriched two primary intermetallic phases with different amounts of Zr, V, and Ti. Furthermore, Zr concentrated more than V and Ti in the nano-size secondary L1(2) precipitates formed during post-solidification heat treatment.