Effect of rolling reduction and heat treatment on the microstructure and mechanical properties of Al1060/Al6061-0.5SiC/Al1060 laminates

Sun, Haiyang; Wang, Z.J.; Du, Peng; Zhang, J.X.; Liu, W.C.

doi:10.1016/j.msea.2021.142328

Cited by 9 publications

(2 citation statements)

References 48 publications

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“…After heat treatment, the Goss and R components dominated the texture of the Al6061-0.5SiC composite. e tensile strength of the as-rolled laminates increased as the rolling reduction was lowered, but the elongation first increased and then decreased [9]. Using the powder metallurgy approach and the effect of SiC clusters, Mulugundam Siva Surya developed Al6061/SiC composites with high interfacial bonding between Al6061/SiC composites.…”

Section: Introductionmentioning

confidence: 99%

Impact of AlN-SiC Nanoparticle Reinforcement on the Mechanical Behavior of Al 6061-Based Hybrid Composite Developed by the Stir Casting Route

Kaliappan¹,

Shanmugam²,

Johnson

et al. 2022

Advances in Materials Science and Engineering

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The enhancement of composites’ mechanical characteristics (tensile, compressive, and hardness) is a constant demand for technological advancement. The stir casting process is used to make the hybrid aluminium alloy metal matrix composites Al 6061-SiC-AlN in our present study. To create mechanical qualities such as tensile, compressive, and hardness, silicon carbide and aluminium nitride (both 3% and 6%) were utilized as the reinforcement. The tensile strength, compressive strength, and hardness of the Al 6061-SiC-AlN hybrid composites samples were determined. The tensile, compressive, and hardness parameters of Al 6061-SiC-AlN hybrid composites are estimated and evaluated to those of the matrix Al 6061 alloy. With the inclusion of silicon carbide and AlN nanoparticles, the tensile strength, compressive strength, and hardness increased from 328 to 385 MPa, 145 to 178 Mpa, and 302 to 724 VHN, respectively.

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Section: Introductionmentioning

confidence: 99%

Impact of AlN-SiC Nanoparticle Reinforcement on the Mechanical Behavior of Al 6061-Based Hybrid Composite Developed by the Stir Casting Route

Kaliappan¹,

Shanmugam²,

Johnson

et al. 2022

Advances in Materials Science and Engineering

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show abstract

“…As the rolling reduction was reduced, the tensile strength of the as-rolled laminates rose, while the elongation increased initially before declining. 9 Mulugundam Siva Surya created Al6061/SiC composites with good interfacial bonding between Al6061/SiC composites using the powder metallurgy method and the effect of SiC clusters. It was shown that diffusion-controlled grain formation enhanced features but had a negative impact on mechanical properties.…”

mentioning

confidence: 99%

Correlation of Structural and Mechanical Properties for Ultrasonically Stir Casted Al6061 Reinforced SiC-AlN Hybrid Metal Matrix Composites

Singh¹,

Yadav²,

Gupta³

2023

ECS J. Solid State Sci. Technol.

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Al6061-SiC-AlN composites were manufactured using the ultrasonic stir casting method. As reinforcement, silicon carbide and aluminium nitride (both 3 and 6 percent by wt.) were used to provide mechanical properties including tensile, compressive, and hardness. Al6061-SiC-AlN hybrid composite samples' tensile strength, compressive strength, and hardness were measured. Al6061-SiC-AlN hybrid composites' tensile, compressive, and hardness properties are calculated and compared to those of the matrix Al 6061 alloy. The tensile strength, compressive strength, and hardness all rose from 328 to 385 MPa, 145 to 178 MPa, and 302 to 724 VHN, respectively, with the addition of SiC and AlN nanoparticles. The suggested composite is compared to unreinforced Al6061 in terms of density and mechanical qualities such ultimate tensile strength, yield strength, impact strength, hardness, and wear characteristics. The results of the experimental examination showed that the produced hybrid composite, which contains 20% of the total reinforcing material, has no appreciable increase in impact strength but displays high hardness, high yield strength, and low wear rate.

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Effect of TiC content on the microstructure, texture and mechanical properties of the 6061Al–TiC/6061Al laminated composites prepared by spark plasma sintering and roll bonding

Sun,

Ou,

Cheng

et al. 2024

J Mater Sci

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Effect of rolling reduction and heat treatment on the microstructure and mechanical properties of Al1060/Al6061-0.5SiC/Al1060 laminates

Cited by 9 publications

References 48 publications

Impact of AlN-SiC Nanoparticle Reinforcement on the Mechanical Behavior of Al 6061-Based Hybrid Composite Developed by the Stir Casting Route

Impact of AlN-SiC Nanoparticle Reinforcement on the Mechanical Behavior of Al 6061-Based Hybrid Composite Developed by the Stir Casting Route

Correlation of Structural and Mechanical Properties for Ultrasonically Stir Casted Al6061 Reinforced SiC-AlN Hybrid Metal Matrix Composites

Effect of TiC content on the microstructure, texture and mechanical properties of the 6061Al–TiC/6061Al laminated composites prepared by spark plasma sintering and roll bonding

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