Effect of Zr Addition and Heat Treatment on Microstructure and Mechanical Properties of Suction Cast Al-Si-Cu Alloys

MatSciRN: Other Mechanical Properties & Deformation of Materials (Topic) Pub Date : 1900-01-01 DOI:10.2139/ssrn.3927818

S. Mondol, U. Bansal, M. Singh, S. Dixit, A. Mandal, A. Paul, K. Chattopadhyay

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Abstract

The role of Zr addition and a three-stage heat treatment to suction cast Al-(6-8)Si-Cu (at%) alloys are studied, emphasizing the microstructure, its stability, and high-temperature tensile properties. The addition of 0.15 at% Zr to the alloys refines the microstructure. The suction casting resulted in the high supersaturation of Zr in the dendrite interiors. When aged directly at 450 ℃, it leads to fine, spherical, coherent L12 order Al3Zr precipitates of size 9-11 nm in the α-Al matrix. After further ageing at 190 ℃ following a brief solutionizing at 500 ℃, the alloys develop a fine-scale microstructure achieved through heterogeneous nucleation of θʹ plates on Al3Zr precipitates formed during initial ageing. These plates are finer in size (~58-67 nm in length and ~4 nm in thickness) than the plates formed in Al-6Si-Cu alloy aged at 190 °C after normal solutionizing (~234 nm in length and ~9.3 nm in thickness). The complex microstructure with a finer length scale rationalizes the high yield strength of the Zr modified alloys (306-320 MPa at room temperature), which is 1.7 times higher than the corresponding Al-6Si-Cu alloy. EDS composition analysis shows the partitioning of Zr and Si in θ' plates that impart long-term thermal stability and coarsening resistance at 250 °C. It leads to a yield strength of ~140 MPa under tension at 250 °C. The coarsening of θ' plates was ledge controlled in Al-(6-8)Si-Cu-Zr alloys.

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Zr添加和热处理对Al-Si-Cu吸力铸造合金组织和力学性能的影响

研究了Zr添加和三段热处理对Al-(6-8)Si-Cu (at%)吸铸合金的影响，重点研究了其显微组织、稳定性和高温拉伸性能。在合金中添加0.15 at% Zr细化了组织。吸力铸造导致枝晶内部Zr过饱和度高。在450℃直接时效时，α-Al基体中形成9 ~ 11 nm尺寸的细小球形L12级Al3Zr相。在500℃短暂固溶后，在190℃进一步时效后，合金在初始时效形成的Al3Zr析出物上形成了θ′板的非均相形核，形成了精细的微观组织。这些板的尺寸(长~58 ~ 67 nm，厚~4 nm)比在190°C正常固溶后形成的Al-6Si-Cu合金板(长~234 nm，厚~9.3 nm)更细。复杂的微观组织和较细的长度尺度使Zr改性合金具有较高的室温屈服强度(306 ~ 320 MPa)，比相应的Al-6Si-Cu合金高1.7倍。EDS成分分析表明，Zr和Si在θ'板上的分配具有长期的热稳定性和250℃下的抗粗化性能。在250℃的拉伸条件下，屈服强度可达~140 MPa。Al-(6-8)Si-Cu-Zr合金中θ′板的粗化受到控制。

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MatSciRN: Other Mechanical Properties & Deformation of Materials (Topic)

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