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Sains Malaysiana 49(12)(2020): 3179-3188
http://dx.doi.org/10.17576/jsm-2020-4912-29
Effects of the Synthesis Coating Parameters for
Metal Bipolar Plates
(Kesan Parameter Salutan Sintesis untuk Plat Dwikutub Logam)
NUR
FAWWAZ ASRI1, TEUKU HUSAINI1*, ABU BAKAR SULONG2 & EDY HERIANTO MAJLAN1
1Fuel
Cell Institute, Universiti Kebangsaan Malaysia, 43600 UKM Bangi, Selangor Darul Ehsan, Malaysia
2Centre
for Materials Engineering and Smart Manufacturing, Faculty of Engineering and
Built Environment, Universiti Kebangsaan Malaysia, 43600 UKM Bangi, Selangor Darul Ehsan, Malaysia
Diserahkan: 4 Ogos 2020/Diterima: 11 September 2020
ABSTRACT
Metallic bipolar plates tendency to have
high contact resistance, but also very susceptible to corrosion. This may
decrease in the performance of fuel cells after several times of usage in fuel
cell applications. Research has shown that after a metal plate was coated, the
characteristic of materials dependent on the type, composition of the coating
materials and the method. This study determines design of coating parameters
including gas flow rate, DC power, and
deposition time of coating for metal bipolar plates, which can be an indicator
of the suitability of these plates for use as bipolar plates in proton exchange
membrane fuel cell (PEMFC) applications. The aim of this research was to obtain a limitation range value of
parameters that can be used as a standard for the use of metal plates as bipolar
plates. The optimization parameters designed by Taguchi are used to determine
the characteristics of interfacial contact resistance (ICR) and corrosion
current density (Icorr). The integration
of the Taguchi method with simulation can show the optimal design parameters of
the coating on the various materials use. The optimization feature based on
Taguchi is applied to ICR and Icorr values,
to determine the feasibility of metal plates as potential bipolar plates in
PEMFC.
Keywords: Coating bipolar plate;
Cr‒C; metallic bipolar plates; Nb‒C; Taguchi
ABSTRAK
Kecenderungan plat dwikutub logam mempunyai rintangan sentuh dan kadar kakisan tinggi, namun mudah terdedah kepada kakisan. Penyelidikanini telah menunjukkan bahawa setelah plat logam disalut, sifat elektrik dipengaruhi oleh jenis dan komposisi salutan yang digunakan, dan kaedah rawatan salutan yang dijalankan. Kajian ini menentukan parameter salutan merangkumi kadar aliran gas, kuasa DC dan masa pemendapan lapisan untuk plat dwikutub logam, untuk mencapai kesesuaian plat digunakan sebagai plat dwikutub dalam aplikasi PEMFC. Pengoptimuman melalui Taguchi dapat digunakan sebagai penentuan pencirian rintangan sentuh antara muka (ICR) dan ketumpatan arus kakisan (Icorr). Fokus kajian terhadap kesinambungan kaedah Taguchi dan simulasi menunjukkan reka bentuk parameter optimum salutan Nb‒C dan Cr‒C. Penyatuan kaedah Taguchi dengan simulasi rintangan kakisan dan ICR dapat menunjukkan parameter reka bentuk salutan yang optimum pada pelbagai bahan yang digunakan. Ciri pengoptimuman berdasarkan Taguchi diterapkan pada nilai ICR dan Icorr, untuk menentukan kemungkinan plat logam sebagai plat dwikutub berpotensi dalam PEMFC.
Kata kunci:
Cr‒C; Nb‒C; plat dwikutub logam; plat dwikutub salutan; Taguchi
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*Pengarang untuk surat-menyurat;
email: t-husaini@ukm.edu.my
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