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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
RUJUKAN
Ahmadkhaniha, D., Fedel, M., Sohi, M.H. & Deflorian, F. 2017.
Corrosion behavior of severely plastic deformed magnesium based alloys: A
review. Surface Engineering and Applied Electrochemistry 53(5): 439-448.
Argade, G.R., Panigrahi, S.K. & Mishra, R.S. 2012. Effects of
grain size on the corrosion resistance of wrought magnesium alloys containing
neodymium. Corrosion Science 58: 145- 151. doi:10.1016/j.corsci.2012.01.021.
Arrabal, R., Mingo, B., Pardo, A., Mohedano, M., Matykina, E.
& Rodríguez, I. 2013. Pitting corrosion of rheocast A356 aluminium alloy in
3.5wt.% NaCl solution. Corrosion Science 73: 342-355.
doi:10.1016/j.corsci.2013.04.023.
ASM Handbook Committee. 1990. ASM Metals Handbook, Vol 02.
Properties and Selection: Nonferrous Alloys and Special- Purpose Materials. ASM
International. pp. 3330-3345. doi:10.1016/S0026-0576(03)90166-8.
Balyanov, A., Kutnyakova, J., Amirkhanova, N.A., Stolyarov, V.V.,
Valiev, R.Z., Liao, X.Z., Zhao, Y.H., Jiang,
Y.B., Xu, H.F., Lowe, T.C. & Zhu, Y.T. 2004.
Corrosion resistance of ultra fine-grained Ti. Scripta Materialia
51(3): 225-229. doi:10.1016/j.scriptamat.2004.04.011. Boag, A., Hughes, A.E., Glenn, A.M., Muster, T.H. & McCulloch,
D. 2011. Corrosion of AA2024-T3 Part I: Localised corrosion of isolated IM
particles. Corrosion Science 53(1): 17-26.
doi:10.1016/j.corsci.2010.09.009.
Buarzaiga, M.M. & Thorpe, S.J. 1994. Corrosion behavior of
as-cast, silicon carbide particulate-aluminum alloy metal-matrix composites. Corrosion 50(3): 176-185.
Davis, J.R. 2001. Aluminum and aluminum alloys. In Light Metals
and Alloys. doi:10.1361/autb2001p351. pp. 351-416.
Fadavi Boostani, A. & Tahamtan, S. 2010. Effect of a novel
thixoforming process on the microstructure and fracture behavior of A356
aluminum alloy. Materials and Design 31(8): 3769-3776.
doi:10.1016/j.matdes.2010.03.019.
Galvin, E., O’Brien, D., Cummins, C., Mac Donald, B.J. &
Lally, C. 2017. A strain-mediated corrosion model for bioabsorbable metallic
stents. Acta Biomaterialia 55(9): 505-517.
doi:10.1016/j.actbio.2017.04.020.
Gebril,
M.A., Omar, M.Z., Mohamed, I.F., Othman, N.K. & Abdelgnei, M.A.H.
2018. Corrosion improvement and microstructure evaluation of sem-solid
A356 alloy by ECAP process. Journal of Physics: Conference Series.
Vol. 1082: 12110. Gebril,
M.A., Omar, M.Z., Othman, N. & Mohamed, I.F. 2019. Effect of equal channel
angular pressing processing routes on corrosion resistance and hardness of heat
treated A356 alloy. Sains Malaysiana 48(3): 661-668.
Ghazali,
M.J., Ghani, J.A. & Omar, M.Z. 2007. Plastic deformation characteristics of
worn precipitation-hardened aluminium alloys. International Journal of
Mechanical and Materials Engineering 2(2): 125-129.
Goodarzy,
M.H., Arabi, H., Boutorabi, M.A., Seyedein, S.H. & Najafabadi, S.H.H. 2014.
The effects of room temperature ECAP and subsequent aging on mechanical
properties of 2024 Al alloy. Journal of Alloys and Compounds 585:
753-759. doi:10.1016/j.jallcom.2013.09.202.
Haghdadi,
N., Zarei-Hanzaki, A., Abedi, H.R. & Sabokpa, O. 2012. The effect of
thermomechanical parameters on the eutectic silicon characteristics in a
non-modified cast A356 aluminum alloy. Materials Science and Engineering A 549:
93-99. doi:10.1016/j.msea.2012.04.010.
Haghshenas,
M., Zarei-hanzaki, A. & Sabetghadam, H. 2009a. The room temperature
mechanical properties of a thermo-mechanically processed Thixocast
A356 aluminum alloy. Journal of Alloys and Compounds 477(1-2):
250-255. doi:10.1016/j. jallcom.2008.10.090. Haghshenas,
M., Zarei-hanzaki, A. & Jahazi, M. 2009b. An investigation to
the effect of deformation-heat treatment cycle on the eutectic morphology
and mechanical properties of a Thixocast A356 alloy. Materials
Characterization 60(8): 817-823. doi:10.1016/j.matchar.2009.01.020.
Hirt,
G., Cremer, R., Witulski, T. & Tinius, H.C. 1997. Lightweight near net
shape components produced by thixoforming. Materials & Design 18(4-6):
315-321. doi:10.1016/S0261- 3069(97)00071-X.
Kawasaki,
M., Figueiredo, R.B. & Langdon, T.G. 2011. An investigation of hardness
homogeneity throughout disks processed by high-pressure torsion. Acta
Materialia 59(1): 308-316. doi:10.1016/j.actamat.2010.09.034.
Kawasaki,
M., Horita, Z. & Langdon, T.G. 2009. Microstructural evolution in high
purity aluminum processed by ECAP. Materials Science and Engineering: A 524(1-2):
143-150. doi:10.1016/j.msea.2009.06.032.
Kumar,
S.R., Gudimetla, K., Venkatachalam, P., Ravisankar, B. & Jayasankar, K. 2012.
Microstructural and mechanical properties of Al 7075 alloy processed by Equal
Channel Angular Pressing. Materials Science and Engineering: A 533:
50-54. doi:10.1016/j.msea.2011.11.031.
Legoretta,
E.C., Atkinson, H.V. & Jones, H. 2008. Cooling slope casting to obtain
thixotropic feedstock II: Observations with A356 alloy. Journal of Materials
Science 43(16): 5456-5469. doi:10.1007/s10853-008-2829-1.
Li,
B., Wang, H., Jie, J. & Wei, Z. 2011. Effects of yttrium and heat treatment
on the microstructure and tensile properties of Al-7.5Si-0.5Mg alloy. Materials
and Design 32(3): 1617- 1622. doi:10.1016/j.matdes.2010.08.040.
Mingo,
B., Arrabal, R., Pardo, A., Matykina, E. & Skeldon, P. 2016. 3D study of
intermetallics and their effect on the corrosion morphology of rheocast
aluminium alloy. Materials Characterization 112: 122-128. doi:10.1016/j.
matchar.2015.12.006.
Miyamoto,
H., Harada, K., Mimaki, T., Vinogradov, A. & Hashimoto, S. 2008. Corrosion
of ultra-fine grained copper fabricated by equal-channel angular pressing. Corrosion
Science 50(5): 1215-1220. doi:10.1016/j.corsci.2008.01.024.
Mohamed,
A.M.A. & Samuel, F.H. 2012. A Review on the heat treatment of Al-Si-Cu/Mg
casting alloys. In Heat Treatment - Conventional and Novel Applications.
InTech. pp. 55-72. doi:10.5772/2798.
Mohamed,
I.F., Masuda, T., Lee, S., Edalati, K., Horita, Z., Hirosawa, S., Matsuda, K.,
Terada, D. & Omar, M.Z. 2017. Strengthening of A2024 alloy by high-pressure
torsion and subsequent aging. Materials Science and Engineering: A 704:
112-118. doi:10.1016/j.msea.2017.07.083.
Möller,
H., Govender, G. & Stumpf, W. 2012. Factors influencing tensile mechanical
properties of Al-7Si-Mg casting alloys A356/7. In Light Metals, edited
by Suarez, C.E. Germany: Springer. pp. 467-471.
Ogris,
E., Wahlen, A., Lüchinger, H. & Uggowitzer, P.J. 2002. On the silicon
spheroidization in Al-Si alloys. Journal of Light Metals 2(4): 263-269.
doi:10.1016/S1471-5317(03)00010-5.
Ralston,
K.D., Birbilis, N. & Davies, C.H.J. 2010. Revealing the relationship
between grain size and corrosion rate of metals. Scripta Materialia 63(12):
1201-1204.
Sadawy,
M.M. & Ghanem, M. 2016. Grain refinement of bronze alloy by equal-channel
angular pressing (ECAP) and its effect on corrosion behaviour. Defence
Technology 12(4): 316-323. doi:10.1016/j.dt.2016.01.013.
Saklakoğlu,
N., Gencalp, S., Kasman, Ş. & Saklakoğlu, İ.E. 2011.
Formation of globular microstructure in A380 aluminum alloy by cooling slope
casting. Advanced Materials Research 264- 265: 272-277. doi:10.4028/www.scientific.net/AMR.264-
265.272.
Sherif,
E.M., Almajid, A.A., Latif, F.H. & Junaedi, H. 2011. Effects of graphite on
the corrosion behavior of aluminum - Graphite composite in sodium chloride
solutions. International Journal of Electrochemical Science 6: 1085-
1099.
Son,
I.J., Nakano, H., Oue, S., Kobayashi, S., Fukushima, H. & Horita, Z. 2007.
Pitting corrosion resistance of anodized aluminum alloy processed by severe
plastic deformation. Materials Transactions 48(1): 21-28. doi:10.2320/
matertrans.48.21.
Song,
D., Ma, A. Bin, Jiang, J., Lin, P., Yang, D. & Fan, J. 2010. Corrosion
behavior of equal-channel-angular-pressed pure magnesium in NaCl aqueous
solution. Corrosion Science 52(2): 481-490.
doi:10.1016/j.corsci.2009.10.004.
Tahamtan,
S. & Fadavi Boostani, A. 2010. Microstructural characteristics of
thixoforged A356 alloy in mushy state. Transactions of Nonferrous Metals
Society of China (English Edition) 20(SUPPL. 3): s781-s787.
doi:10.1016/S1003- 6326(10)60581-X.
Tahamtan,
S. & Fadavi Boostani, A. 2009. Quantitative analysis of pitting corrosion
behavior of thixoformed A356 alloy in chloride medium using electrochemical
techniques. Materials and Design 30(7): 2483-2489. doi:10.1016/j.
matdes.2008.10.003.
Tiryakioǧlu,
M. 2008. Si particle size and aspect ratio distributions in an Al-7%Si-0.6%Mg
alloy during solution treatment. Materials Science
and Engineering: A 473(1-2): 1-6. doi:10.1016/j.msea.2007.03.044.
Valiev,
R.Z. & Langdon, T.G. 2006a. Developement in the use of ECAP processing fro
grain refinement. Reviews on Advanced Materials Science 13: 15-26.
http://wwwproxy.ipme.ru/e-journals/RAMS/no_11306/valiev.pdf.
Valiev, R.Z. &
Langdon, T.G. 2006b. Principles of equal-channel angular pressing as a processing
tool for grain refinement. Progress in Materials Science 51(7): 881-981.
doi:10.1016/j. pmatsci.2006.02.003.
Valiev, R.Z.,
Islamgaliev, R.K. & Alexandrov, I.V. 2000. Bulk nanostructured materials
from severe plastic deformation. Prog. Mat. Sci. 45: 103-189.
Wang, X., Nie, M., Wang,
C.T., Wang, S.C. & Gao, N. 2015. Microhardness and corrosion properties of
hypoeutectic Al-7Si alloy processed by high-pressure torsion. Materials and
Design 83: 193-202. doi:10.1016/j.matdes.2015.06.018.
Xu, C. & Langdon,
T.G. 2003. Influence of a round corner die on flow homogeneity in ECA pressing. Scripta Materialia 48(1): 1-4. doi:10.1016/S1359-6462(02)00354-8.
Xu, J., Shirooyeh, M.,
Wongsa-Ngam, J., Shan, D., Guo, B. & Langdon, T.G. 2013. Hardness
homogeneity and micro-tensile behavior in a magnesium AZ31 alloy processed by
equal-channel angular pressing. Materials Science and Engineering: A 586:
108-114.
Zheng, Z.J., Gao, Y.,
Gui, Y. & Zhu, M. 2012. Corrosion behaviour of nanocrystalline 304
stainless steel prepared by equal channel angular pressing. Corrosion
Science 54(1): 60-67. doi:10.1016/j.corsci.2011.08.049.
Zhilyaev, A.P. &
Ruano, O.A. 2011. Influence of the supersaturated silicon solid solution
concentration on the effectiveness of severe plastic deformation processing in
Al-7 wt.% Si casting alloy. Materials Science and Engineering: A 528(27):
7938- 7947. doi:10.1016/j.msea.2011.07.016.
Zhu, M. 2017. Effects of
T6 heat treatment on the microstructure, tensile properties, and fracture
behavior of the modified A356 alloys. Journal of Materials & Design 36(November):
243- 249. doi:10.1016/j.matdes.2011.11.018.
*Pengarang
untuk surat-menyurat; email: gebril.ukm@gmail.com
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