Sains Malaysiana 48(12)(2019): 2749–2757
http://dx.doi.org/10.17576/jsm-2019-4812-16
Microstructural
Refinement and Corrosion Resistance Improvement of Heat Treated A356 Alloy
Processed by Equal Channel Angular Pressing
(Mikrostruktur
Penghalusan dan Rintangan Kakisan Peningkatan Haba Dirawat A356 Aloi
Diproses oleh Saluran
Sama Sudut Menekan)
M.A. GEBRIL1,2*, M.Z. OMAR1, N.K. OTHMAN3 & I.F. MOHAMED4
1Centre
for Materials Engineering and Smart Manufacturing, Universiti Kebangsaan
Malaysia, 43600 UKM Bangi, Selangor Darul Ehsan, Malaysia
2Department
of Mechanical Engineering, Faculty of Engineering, Benghazi University,
Benghazi, Libya
3School
of Applied Physics, Faculty of Science and Technology, Universiti Kebangsaan
Malaysia, 43600 UKM Bangi, Selangor Darul Ehsan, Malaysia
4Fuel
Cell Institute, Universiti Kebangsaan Malaysia, 43600 UKM Bangi, Selangor Darul
Ehsan, Malaysia
Diserahkan: 12 Jun
2019/Diterima: 27 September 2019
ABSTRACT
The microstructure refinement, hardness and corrosion resistance
of heat-treated A356 aluminium alloy processed by equal-channel angular
pressing (ECAP) were investigated. ECAP was
carried out at room temperature using a mold, with a channel angle of 120° via
route A. Results of the investigation confirm that the flaky coarse silicon
particles were effectively fragmented from 4.22 to 0.761 μm and the grain
size reduced from 171 to 40 μm after four passes of heat-treated as-cast
using ECAP process. ECAP processing increases the
hardness of heat-treated as-cast alloy from 61 Hv to 125 HV after
four passes. Heat-treated A356 alloy shows enhanced corrosion resistance from
0.0424 to 0.00149 mmy-1, after four passes. In this
research, ECAP processing has been shown to improve the hardness
and corrosion resistance of as-cast A356 alloy.
Keywords: A356 aluminium alloy; corrosion rate; ECAP;
grain size; heat treatment
ABSTRAK
Penghalusan mikrostruktur, kekerasan dan rintangan kakisan aloi aluminum
A356 terawat haba yang diproses secara saluran sama sudut menekan
(ECAP)
dikaji. ECAP dilakukan pada suhu bilik dengan menggunakan acuan
yang mempunyai sudut saluran 120° melalui laluan A. Keputusan
kajian mengesahkan bahawa zarah silikon kasar berkeping terserpih
dengan baik daripada 4.22 kepada 0.761 μm manakala saiz butiran
berkurangan daripada 171 kepada 40 μm selepas empat laluan
tuang terawat haba dengan menggunakan proses ECAP.
Pemprosesan ECAP meningkatkan kekerasan aloi tuang terawat haba daripada
61 Hv kepada 125 HV selepas empat laluan. Aloi A356 terawat
haba menunjukkan rintangan kakisan yang lebih baik, iaitu daripada
0.0424 kepada 0.00149 mmy-1 selepas empat laluan. Kajian ini telah
menunjukkan bahawa pemprosesan ECAP telah meningkatkan kekerasan
dan rintangan kakisan aloi A356 tuang.
Kata kunci: Aloi aluminium A356; ECAP;
kadar kakisan; rawatan haba; saiz butiran
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*Pengarang
untuk surat-menyurat; email: gebril.ukm@gmail.com
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