In situ development of AlBx/AA6060 and AA5083 alloys cast composites
Al – AlBx (x = 2,12), AA6060 – AlBx (x = 2,12) and AA5083 – AlBx (x = 2,12) composites with 3 wt % AlBx particles were developed by in-situ reaction of molten aluminium and alloys (AA5083 and AA6060) with inorganic salt KBF4 at a temperature of 900 °C. The chemical reaction produces boron, which dis...
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| Published in | Composites. Part B, Engineering Vol. 97; pp. 9 - 17 |
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| Main Authors | , , , , |
| Format | Journal Article |
| Language | English |
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Elsevier Ltd
15.07.2016
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| Abstract | Al – AlBx (x = 2,12), AA6060 – AlBx (x = 2,12) and AA5083 – AlBx (x = 2,12) composites with 3 wt % AlBx particles were developed by in-situ reaction of molten aluminium and alloys (AA5083 and AA6060) with inorganic salt KBF4 at a temperature of 900 °C. The chemical reaction produces boron, which dissolves into the molten alloy and subsequently forms aluminium borides (AlB2 and AlB12). The thermodynamic properties of the reactions are calculated by HSC Chemistry 6.0 software. In the case of aluminium matrix the melt solidified in the crucible, between 980 °C and 200 °C, in order to develop the peritectic reaction AlB12 + 5Al(l) = 6AlB2.
It was found that both in the case of aluminium and aluminium alloys the peritectic reaction occurs partially. The composites were characterised by SEM and XRD analysis. The stress-strain measurement showed 8% improvement towards the matrix alloys. The fracture features of composites were examined using SEM analysis. Ductile and brittle locally fractography is revealed. Composites exhibited a higher resistance to crack initiation than the matrix alloys. The results obtained in the experiments and analysis helps to clarify the mechanism of interaction between liquid aluminium and KBF4 at high temperatures. |
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| AbstractList | Al - AlBx (x = 2,12), AA6060 - AlBx (x = 2,12) and AA5083 - AlBx (x = 2,12) composites with 3 wt % AlBx particles were developed by in-situ reaction of molten aluminium and alloys (AA5083 and AA6060) with inorganic salt KBF4 at a temperature of 900 degree C. The chemical reaction produces boron, which dissolves into the molten alloy and subsequently forms aluminium borides (AlB2 and AlB12). The thermodynamic properties of the reactions are calculated by HSC Chemistry 6.0 software. In the case of aluminium matrix the melt solidified in the crucible, between 980 degree C and 200 degree C, in order to develop the peritectic reaction AlB12 + 5Al(l) = 6AlB2. It was found that both in the case of aluminium and aluminium alloys the peritectic reaction occurs partially. The composites were characterised by SEM and XRD analysis. The stress-strain measurement showed 8% improvement towards the matrix alloys. The fracture features of composites were examined using SEM analysis. Ductile and brittle locally fractography is revealed. Composites exhibited a higher resistance to crack initiation than the matrix alloys. The results obtained in the experiments and analysis helps to clarify the mechanism of interaction between liquid aluminium and KBF4 at high temperatures. Al – AlBx (x = 2,12), AA6060 – AlBx (x = 2,12) and AA5083 – AlBx (x = 2,12) composites with 3 wt % AlBx particles were developed by in-situ reaction of molten aluminium and alloys (AA5083 and AA6060) with inorganic salt KBF4 at a temperature of 900 °C. The chemical reaction produces boron, which dissolves into the molten alloy and subsequently forms aluminium borides (AlB2 and AlB12). The thermodynamic properties of the reactions are calculated by HSC Chemistry 6.0 software. In the case of aluminium matrix the melt solidified in the crucible, between 980 °C and 200 °C, in order to develop the peritectic reaction AlB12 + 5Al(l) = 6AlB2. It was found that both in the case of aluminium and aluminium alloys the peritectic reaction occurs partially. The composites were characterised by SEM and XRD analysis. The stress-strain measurement showed 8% improvement towards the matrix alloys. The fracture features of composites were examined using SEM analysis. Ductile and brittle locally fractography is revealed. Composites exhibited a higher resistance to crack initiation than the matrix alloys. The results obtained in the experiments and analysis helps to clarify the mechanism of interaction between liquid aluminium and KBF4 at high temperatures. |
| Author | Dragut, D.V. Moldovan, P. Preda, E.A. Butu, M. Besea, L.M. |
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| CitedBy_id | crossref_primary_10_1088_1757_899X_810_1_012038 crossref_primary_10_1016_j_compositesb_2018_08_139 crossref_primary_10_1108_ACMM_04_2021_2473 crossref_primary_10_1088_2053_1591_aa8dbe crossref_primary_10_3390_ma12111749 crossref_primary_10_3390_ma13071588 crossref_primary_10_1007_s40735_020_00385_4 |
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| Keywords | A. Particle reinforcement AlB2 B. Microstructures A. Metal-matrix composites (MMCs) D. Electron microscopy |
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| References | Cooper, Kearns (bib1) 1996; 217 KarbalaiAkbori, Baharrandi, Shirvanimoghaddarn (bib10) 2015; 665 C. Deppisch, G. Liu, J.K. Shang, J. Economy, Processing and mechanical properties of AlB Koksal, Ficici, Kayikci, Savas (bib4) 2012; 124 Wang (bib2) 2005; 403 Yuan, Chao, Yan-xiang (bib11) 2011; 21 Savas, Kayikci (bib5) 2013; 641 Dragut, Moldovan, Butu, Usurelu (bib9) 2011; 3 Karantzalis, Lekaton, Georgatis, Poulas, Mavros (bib7) 30 april 2010; 20 Melgarejo, Resto, Stone, Suarez (bib8) 2010; 61 flake reinforced Al-alloy composites, Mater Sci Eng A – Structural Mater Prop Microstruct Process, vol. 225, Issue 1–2, 153:161 Wang, Zhao, Li, Shen, Zhao (bib6) 2013; 23 Wang (10.1016/j.compositesb.2016.04.057_bib2) 2005; 403 10.1016/j.compositesb.2016.04.057_bib3 Wang (10.1016/j.compositesb.2016.04.057_bib6) 2013; 23 KarbalaiAkbori (10.1016/j.compositesb.2016.04.057_bib10) 2015; 665 Koksal (10.1016/j.compositesb.2016.04.057_bib4) 2012; 124 Karantzalis (10.1016/j.compositesb.2016.04.057_bib7) 2010; 20 Yuan (10.1016/j.compositesb.2016.04.057_bib11) 2011; 21 Cooper (10.1016/j.compositesb.2016.04.057_bib1) 1996; 217 Melgarejo (10.1016/j.compositesb.2016.04.057_bib8) 2010; 61 Dragut (10.1016/j.compositesb.2016.04.057_bib9) 2011; 3 Savas (10.1016/j.compositesb.2016.04.057_bib5) 2013; 641 |
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| SubjectTerms | A. Metal-matrix composites (MMCs) A. Particle reinforcement AlB2 Alloys Aluminum Aluminum base alloys B. Microstructures Chemical reactions D. Electron microscopy Fracture mechanics Particulate composites Peritectic reactions Stress-strain relationships |
| Title | In situ development of AlBx/AA6060 and AA5083 alloys cast composites |
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