Indentation Size Effect of Composite A356 + 6%FA Subjected to ECAP
Article (Published version)
Metadata
Show full item recordAbstract
In this study, metal matrix-based composite (MMC) was subjected to Equal Chanel Angular Pressing (ECAP) in several passes to determine the influence of deformation on the hardness of the samples. Composite based on A356 aluminum alloy and reinforced with Fly Ash (FA) particles was obtained by the compo casting method. The microstructural analyses and microhardness measurements were performed on the cast and pressed samples. Vickers hardness measurement of composite samples was performed with different indentation load sizes: HV0.02, HV0.05, HV0.1 and HV0.2. Results showed that hardness increases after each ECAP pass. The lowest hardness value of 42 (HV0.02) as well as the lowest arithmetical mean value of 46 (HV0.2) was measured at the cast composite. The greatest composite hardness of 107 (HV0.1) and the highest arithmetical mean value of 94 (HV0.1) was measured at the three-time pressed sample. The mathematical model named Meyer’s law was used for data analysis. In the cast sample, a... decrease in hardness was detected with increasing indentation load, termed Indentation Size Effect (ISE), was confirmed with Meyers index n = 1.9112 < 2. Pressed samples showed opposite behavior—an increase in hardness with increasing indentation load—where Meyers index n > 2 indicated Reverse Indentation Size Effect (RISE). For all samples, a high coefficient of determination R2 > 0.99 confirmed that Meyer’s law described this phenomenon well.
Keywords:
Equal Chanell Angular Pressing (ECAP) / Fly Ash (FA) / Indentation Size Effect (ISE) / Metal Matrix Composite (MMC) / Meyer’s law / Vickers hardnessSource:
Metals, 2022, 12, 5, 821-Funding / projects:
- Federal Ministry of Education and Science, Bosnia and Herzegovina
DOI: 10.3390/met12050821
ISSN: 2075-4701
WoS: 00080367790000
Scopus: 2-s2.0-85129759646
Collections
Institution/Community
VinčaTY - JOUR AU - Muslić, Merima AU - Orešković, Luka AU - Rede, Vera AU - Maksimović, Vesna PY - 2022 UR - https://vinar.vin.bg.ac.rs/handle/123456789/10271 AB - In this study, metal matrix-based composite (MMC) was subjected to Equal Chanel Angular Pressing (ECAP) in several passes to determine the influence of deformation on the hardness of the samples. Composite based on A356 aluminum alloy and reinforced with Fly Ash (FA) particles was obtained by the compo casting method. The microstructural analyses and microhardness measurements were performed on the cast and pressed samples. Vickers hardness measurement of composite samples was performed with different indentation load sizes: HV0.02, HV0.05, HV0.1 and HV0.2. Results showed that hardness increases after each ECAP pass. The lowest hardness value of 42 (HV0.02) as well as the lowest arithmetical mean value of 46 (HV0.2) was measured at the cast composite. The greatest composite hardness of 107 (HV0.1) and the highest arithmetical mean value of 94 (HV0.1) was measured at the three-time pressed sample. The mathematical model named Meyer’s law was used for data analysis. In the cast sample, a decrease in hardness was detected with increasing indentation load, termed Indentation Size Effect (ISE), was confirmed with Meyers index n = 1.9112 < 2. Pressed samples showed opposite behavior—an increase in hardness with increasing indentation load—where Meyers index n > 2 indicated Reverse Indentation Size Effect (RISE). For all samples, a high coefficient of determination R2 > 0.99 confirmed that Meyer’s law described this phenomenon well. T2 - Metals T1 - Indentation Size Effect of Composite A356 + 6%FA Subjected to ECAP VL - 12 IS - 5 SP - 821 DO - 10.3390/met12050821 ER -
@article{ author = "Muslić, Merima and Orešković, Luka and Rede, Vera and Maksimović, Vesna", year = "2022", abstract = "In this study, metal matrix-based composite (MMC) was subjected to Equal Chanel Angular Pressing (ECAP) in several passes to determine the influence of deformation on the hardness of the samples. Composite based on A356 aluminum alloy and reinforced with Fly Ash (FA) particles was obtained by the compo casting method. The microstructural analyses and microhardness measurements were performed on the cast and pressed samples. Vickers hardness measurement of composite samples was performed with different indentation load sizes: HV0.02, HV0.05, HV0.1 and HV0.2. Results showed that hardness increases after each ECAP pass. The lowest hardness value of 42 (HV0.02) as well as the lowest arithmetical mean value of 46 (HV0.2) was measured at the cast composite. The greatest composite hardness of 107 (HV0.1) and the highest arithmetical mean value of 94 (HV0.1) was measured at the three-time pressed sample. The mathematical model named Meyer’s law was used for data analysis. In the cast sample, a decrease in hardness was detected with increasing indentation load, termed Indentation Size Effect (ISE), was confirmed with Meyers index n = 1.9112 < 2. Pressed samples showed opposite behavior—an increase in hardness with increasing indentation load—where Meyers index n > 2 indicated Reverse Indentation Size Effect (RISE). For all samples, a high coefficient of determination R2 > 0.99 confirmed that Meyer’s law described this phenomenon well.", journal = "Metals", title = "Indentation Size Effect of Composite A356 + 6%FA Subjected to ECAP", volume = "12", number = "5", pages = "821", doi = "10.3390/met12050821" }
Muslić, M., Orešković, L., Rede, V.,& Maksimović, V.. (2022). Indentation Size Effect of Composite A356 + 6%FA Subjected to ECAP. in Metals, 12(5), 821. https://doi.org/10.3390/met12050821
Muslić M, Orešković L, Rede V, Maksimović V. Indentation Size Effect of Composite A356 + 6%FA Subjected to ECAP. in Metals. 2022;12(5):821. doi:10.3390/met12050821 .
Muslić, Merima, Orešković, Luka, Rede, Vera, Maksimović, Vesna, "Indentation Size Effect of Composite A356 + 6%FA Subjected to ECAP" in Metals, 12, no. 5 (2022):821, https://doi.org/10.3390/met12050821 . .