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Journal of Materials Engineering and Performance

Erschienen in:

30.04.2019

Fabrication, Microstructures, and Properties of 50 vol.% SiCp/6061Al Composites via Hot Pressing

verfasst von: Jian Sun, Guohong Chen, Binhao Wang, Guodong Chen, Wenming Tang

Erschienen in: Journal of Materials Engineering and Performance | Ausgabe 5/2019

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Abstract

Nearly fully dense 50 vol.% SiCp/6061Al composites were fabricated via hot pressing (HPing) at temperatures ranging from 610 to 650 °C, with the axial load and holding time fixed as 25 MPa and 120 min, respectively. The interfacial reactions, microstructures, and properties of the SiCp/Al alloy were studied. The interface reaction between SiCp and the Al alloy was suppressed at annealing temperatures of 620 °C and below; however, the reaction intensified as the annealing temperature increased, producing Al₄C₃, Si, and Mg₂Si. With an increase in HPing temperature from 610 to 630 °C, the 6061Al alloy melted and gradually filled the pores in the SiC particles under the applied load. The density, bending strength, and thermal conductivity (TC) of the composites increased, whereas the coefficient of thermal expansion (CTE) of the composites decreased. With an increase in HPing temperature increased from 630 to 650 °C, the 6061Al alloy melt leaked through the sintered bodies, resulting in the microstructural degradation and property reduction of the composites. The 50 vol.% SiCp/6061Al composites fabricated by HPing at 630 °C exhibited optimal comprehensive properties [bending strength, 332.4 MPa; TC, 186.3 W(m K)⁻¹; and CTE, 7.9 × 10⁻⁶/°C (20-100 °C)], which were attributed to the highest relative density and the best SiCp/Al interfacial structure of the composites.

Vorheriger Artikel Effect of Through-Thickness Friction Stir Processing Parameters on Weld Repair and Modification of Fusion-Welded AA6061 Aluminum Alloy

Nächster Artikel Thermal Analysis of Rare Earth Additions to HY100

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X.M. Zhu, J.K. Yu, and X.Y. Wang, Microstructure and Properties of Al/Si/SiC Composites for Electronic Packaging, Trans. Nonferrous Metals Soc. China, 2012, 22, p 1686–1692CrossRef

M.J. Zhu, L.I. Shun, X. Zhao, and D.G. Xiong, Laser-Weldable Sip-SiCp/Al Hybrid Composites with Bilayer Structure for Electronic Packaging, Trans. Nonferrous Metals Soc. China, 2014, 24, p 1032–1038CrossRef

H.P. Degischer, P. Prader, and C.S. Marchi, Assessment of Metal Matrix Composites for Innovations-Intermediate Report of a European Thematic Network, Comp. A, 2001, 32, p 1161–1166CrossRef

S. Ren, X. He, X. Qu, I.S. Humail, and Y. Li, Effect of Mg and Si in the Aluminum on the Room-Mechanical Properties of Pressureless Infiltrated SiCp/Al Composites, Comp. Sci. Technol., 2007, 67, p 2103–2113CrossRef

D.M. Wang, Z.X. Zheng, J. Lv, G.Q. Xue, S.A. Zhou, W.M. Tang, and Y.C. Wu, Enhanced Thermal Conductive 3D-SiC/Al-Si-Mg Interpenetrating Composites Fabricated by Pressureless Infiltration, Ceram. Int., 2017, 43, p 1755–1761CrossRef

A. Canakci and T. Varol, Microstructure and Properties of AA7075/Al-SiC Composites Fabricated Using Powder Metallurgy and Hot Pressing, Powder Technol., 2014, 268, p 72–79CrossRef

X.Z. Mao, Y. Hong, B.H. Wang, J.W. Liu, Y.J. Zhang, D. Feng, L. Yang, C.D. Shi, Y.C. Wu, and W.M. Tang, Fabrication, Microstructures and Properties of 50 vol%SiC/6061Al Composites Via a Pressureless Sintering Technique, Powder Metall., 2018, 61, p 1–9CrossRef

P. Ma, C.M. Zou, H.W. Wang, J.C. Jie, Y.D. Jia, B.G. Fu, and Z.J. Wei, Microstructure Evolution and Precipitation of SiC Particle Reinforced Al-20Si Composite Solidified Under High Pressures, Mater. Lett., 2012, 79, p 232–234CrossRef

J. Bang, J.J. Oak, and Y.H. Park, Fabrication and Analysis of the Wear Properties of Hot-Pressed Al-Si/SiCp + Al-Si-Cu-Mg Metal Matrix Composite, J. Mater. Eng. Perform., 2016, 25, p 102–115CrossRef

10.

A.Q. Wang, M. Fang, J.P. Xie, Z.L. Ni, and L.J. Zhang, The Study on Microstructure and Thermal Expansion Property of SiCp/Al-30Si Composite Material Prepared by Hot-Pressing, Adv. Mater. Res., 2012, 490-495, p 3859–3863CrossRef

11.

Q. Zhang, B.L. Xiao, Z.Y. Liu, and Z.Y. Ma, Microstructure Evolution and Elemental Diffusion of SiCp/Al-Cu-Mg Composites Prepared From Elemental Powder During Hot Pressing, J. Mater. Sci., 2011, 46, p 6783–6793CrossRef

12.

F. Teng, Y.U. Kun, J. Luo, H.J. Fang, C.L. Shi, Y.L. Dai, and H.Q. Xiong, Microstructures and Properties of Al-50%SiC Composites for Electronic Packaging Applications, Trans. Nonferrous Metals Soc. China, 2016, 26, p 2647–2652CrossRef

13.

K. Jayakumar, M. Jose, M.A. Joseph, R. Suresh Kumar, A.K. Shukla, and M.G. Samuel, Synthesis and Characterization of A356-SiC Composite Produced Through Vacuum Hot Pressing, Adv. Manuf. Proc., 2013, 28, p 991–998

14.

F. Bedir, Characteristic Properties of Al-Cu-SiCp and Al-Cu-B₄Cp Composites Produced by Hot Pressing Method Under Nitrogen Atmosphere, Mater. Des., 2007, 28, p 1238–1244CrossRef

15.

S. Hao and J. Xie, Tensile Properties and Strengthening Mechanisms of SiCp-Reinforced Aluminum Matrix Composites as a Function of Relative Particle Size Ratio, J. Mater. Res., 2013, 28, p 2047–2055CrossRef

16.

Y.W. Yan and L. Geng, Effects of Particle Size on the Thermal Expansion Behavior of SiCp/Al Composites, J. Mater. Sci., 2007, 42, p 6433–6438CrossRef

17.

R.N. Lumley, T.B. Sercombe, and G.B. Schaffer, Surface Oxide and the Role of Magnesium During the Sintering of Aluminum, Metall. Mater. Trans. A, 1999, 30, p 457–463CrossRef

18.

H.S. Lee and S.H. Hong, Pressure Infiltration Casting Process and Thermophysical Properties of High Volume Fraction SiCp/Al Metal Matrix Composites, Mater. Sci. Technol., 2003, 19, p 1057–1064CrossRef

19.

D.P.H. Hasselman, K.Y. Donaldson, and A.L. Geiger, Effect of Reinforcement Particle Size on the Thermal Conductivity of a Particulate-Silicon Carbide-Reinforced Aluminum Matrix Composite, J. Am. Ceram. Soc., 1992, 75, p 3137–3140CrossRef

20.

Y. Cao, H.X. Xu, J. Zhan, W. Xin, J.M. Wang, S. Cui, and W.M. Tang, Experimental and Modeling Studies on the Microstructures and Properties of Oxidized Aluminum Nitride Ceramic Substrates, J. Mater. Eng. Perform., 2018, 27, p 3297–3303CrossRef

21.

A.L. Geiger and M. Jackson, Low-Expansion MMCs Boost Avionics, Adv. Mater. Proc., 1989, 136, p 23–28

22.

T. Huber, H.P. Degischer, G. Lefranc, and T. Schmitt, Thermal Expansion Studies on Aluminium-Matrix Composites with Different Reinforcement Architecture of SiC Particles, Comp. Sci. Technol., 2006, 66, p 2206–2217CrossRef

23.

R.U. Vaidya and K.K. Chawla, Thermal Expansion of Metal-Matrix Composites, Comp. Sci. Technol., 1994, 50, p 13–22CrossRef

24.

S. Lemieus, S. Elomari, J.A. Nemes, and M.D. Skibo, Thermal Expansion of Isotropic Duralcan Metal–Matrix Composites, J. Mater. Sci., 1998, 33, p 4381–4387CrossRef

Titel: Fabrication, Microstructures, and Properties of 50 vol.% SiCp/6061Al Composites via Hot Pressing
verfasst von: Jian Sun
Guohong Chen
Binhao Wang
Guodong Chen
Wenming Tang
Publikationsdatum: 30.04.2019
Verlag: Springer US
Erschienen in: Journal of Materials Engineering and Performance / Ausgabe 5/2019
Print ISSN: 1059-9495
Elektronische ISSN: 1544-1024
DOI: https://doi.org/10.1007/s11665-019-04071-6

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