Influence of Heat Treatment on Microhardness and Phase Transformations in Cast and Homogenized 7075(-Sc-Zr) Aluminium Alloys

M. Vlach, V. Kodetová, H. Kudrnová, M. Leibner, M. Cieslar, V. Šíma, L. Bajtošová, T. Kekule, V. Očenášek, J. Čížek
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Abstract

The positive effect of Sc,Zr-addition on mechanical properties in Al-based alloys preferred for automotive manufacture to produce lightweight vehicles is generally known. Microstructure, mechanical, electrical and thermal properties of the conventionally cast and homogenized (475 °C/60 min) Al-5.4wt.%Zn-3.1wt.%Mg-1.5wt.%Cu (7075) and Al-5.2wt.%Zn-3.0wt.%Mg-1.4wt.%Cu-0.2wt.%Sc-0.1wt.%Zr (7075-ScZr) alloys during isochronal annealing were characterized. Precipitation reactions were studied by microhardness, electrical resistivity and conductivity measurements, differential scanning calorimetry and positron annihilation spectroscopy. Microstructure observation by scanning and transmission electron microscopy proved the Zn,Mg,Cu-containing eutectic phase at grain boundaries in the alloys. The melting of this eutectic phase was observed at ~ 481 °C for the both alloys. The distinct changes in microhardness and electrical resistivity isochronal curves as well as in heat flow of the alloys studied are mainly caused by dissolution of the clusters/Guinier-Preston (GP) zones and by formation of the metastable phase particles of the Al–Zn–Mg–Cu system. Clusters/GP zones were formed during the cooling and/or in the course of the storage at room temperature. These clusters/GP zones were formed predominantly by Mg and Zn alloying elements. Hardening effect after isochronal annealing at temperatures above ~ 300 °C reflects the Sc,Zr-addition in both states of the 7075-ScZr alloy. Probably precipitation of the T-phase (Al2Zn3Mg3) and S-phase (Al2CuMg) particles took place during the annealing. The Sc,Zr-addition does not significantly influence precipitation of the particles formed in the Al–Zn–Mg–Cu system.
热处理对铸造和均匀化7075(-Sc-Zr)铝合金显微硬度和相变的影响
添加Sc、zr对铝基合金力学性能的积极影响是众所周知的,这是汽车制造生产轻量化汽车的首选。常规铸造和均质(475°C/60 min) Al-5.4wt.%Zn-3.1wt.%Mg-1.5wt的显微组织、力学、电学和热性能。%铜(7075)和al - 5.2 - wt. %锌- mg - 1.4 - 3.0 - wt. % wt. %铜- 0.2 wt. % sc - 0.1 wt。对%Zr (7075-ScZr)合金等时退火过程进行了表征。采用显微硬度、电阻率和电导率测量、差示扫描量热法和正电子湮没光谱对沉淀反应进行了研究。通过扫描电镜和透射电镜观察,发现合金晶界处存在含Zn、Mg、cu的共晶相。在~ 481℃时,两种合金的共晶相均发生了熔化。合金的显微硬度、电阻率等时曲线以及热流的显著变化主要是由于团簇/ GP带的溶解和Al-Zn-Mg-Cu体系亚稳相颗粒的形成所致。在冷却和/或室温储存过程中形成团簇/GP区。这些团簇/GP区主要由Mg和Zn合金元素形成。在~ 300℃以上等时退火后的硬化效应反映了7075-ScZr合金两种状态中Sc、zr的加入。退火过程中可能析出了t相(Al2Zn3Mg3)和s相(Al2CuMg)颗粒。Sc、zr的加入对Al-Zn-Mg-Cu体系中形成的颗粒析出没有显著影响。
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