Công cụ

Mg-Zn-Gd三元铸造镁合金的自由凝固路径选择

✍ 刘少军, 杨光昱, 介万奇 🏷 Miễn phí

Giới thiệu

Mg-Zn-Gd三元铸造镁合金的自由凝固路径选择

SELECTION OF THE SOLIDIFICATION PATH OF Mg-Zn-Gd TERNARY CASTING ALLOY

作者:

刘少军

1

杨光昱

1

介万奇

1

作者单位:

1.

西北工业大学凝固技术国家重点实验室

提交时间:

2023-03-19

摘要:

采用实验和数值计算方法, 研究了Mg-4.58Zn-2.6Gd三元铸造镁合金的自由凝固路径选择. 实验结果表明, 当铸型冷却速率≤0.75 K/s 时, 合金首先生成的共晶为a(Mg)+W(Mg3Zn3Gd2); 当铸型冷却速率≥7.71 K/s 时, 合金首先生成的共晶为a(Mg)+I(Mg3Zn6Gd). 建立了综合考虑合金液相扩散和冷却速率因素的多元合金初生相凝固路径计算模型. 耦合热力学计算软件Thermo-Calc 及其数据库获得了g-4.58Zn-2.6Gd合金凝固路径计算所需的热力学数据, 发现计算结果与实验结果吻合良好.

Abstract:

Mg-Zn-Gd base alloys possess much superiority, such as, high strength, light weight, low cost, etc., and favorable for the application in various airframe components. Two kinds of eutectic phases, such as, W(Mg3Zn3Gd2) and I(Mg3Zn6Gd), can be usually found in Mg-Zn-Gd alloy under the traditional casting conditions. The interface between W phase and a(Mg) is incoherent and thus weak. However, I phase has quasiperiodic lattice leading to a coherent interface between I phase and a(Mg). Therefore, compared with W phase, I phase is more effective to obstruct dislocations slipping and so efficiently strengthening the alloy. So, controlling the solidification path, i.e., controlling the relative amount of I phase and W phase, is critical for increasing the heat resistant of Mg-Zn-Gd magnesium alloy. In this work, the solidification path of Mg-4.58Zn-2.6Gd ternary casting alloy was investigated by experiments and numerical analysis. Experimental results showed that at lower cooling rate (≤0.75 K/s), a+W(Mg3Zn3Gd2) eutectic will be formed first, while at higher cooling rate (≥7.71 K/s), a(Mg)+I(Mg3Zn6Gd) eutectic will be formed first. A numerical model for predicting solidification path of the primary phase in multi-component alloy with considering the effects of solute diffusion in liquid phase and the cooling rate was developed. The thermodynamic data in the computation model was obtained by using the database of Thermo-Calc. The numerical results were in favorable agreement with the experimental ones. The numerical model established in this work provides a direct and easy way to predict solidification path of Mg-Zn-Gd alloy for different casting conditions. The validity of this model was further confirmed by other three different Mg-Zn-Gd alloys, i.e., Mg-3.8Zn-2.0Gd, Mg-5.5Zn-2.0Gd and Mg-5.5Zn-4Gd. It is a

Chủ đề: ChinaXiv, 金属学报, 材料科学, 材料科学(综合), Mg-Zn-Gd三元镁合金, 凝固路径, 冷却速率, 计算模型

— Nguồn: Archive.org (tài liệu cho phép tải tự do). Tải/đọc tại liên kết bên dưới.