Anticorrosion Properties Of Epoxy Zinc Oil Palm Frond Cellulose Nanocrystal Composite Coating For Mild Steel Corrosion Protection
Epoxy zinc (epoxy-Zn) coating has been widely used as corrosion protection. However, the high porosity of epoxy-Zn is tend to drawback the barrier properties of the coating. Thus, the surface modification of epoxy-Zn is imperative. This study focused on effect of oil palm frond cellulose nanocrys...
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| Format: | Thesis |
| Language: | English |
| Published: |
2021
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| Subjects: | |
| Online Access: | http://eprints.usm.my/52215/1/NUR%20FATIN%20SILMI%20MOHD%20AZANI.pdf |
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| Summary: | Epoxy zinc (epoxy-Zn) coating has been widely used as corrosion protection.
However, the high porosity of epoxy-Zn is tend to drawback the barrier properties of
the coating. Thus, the surface modification of epoxy-Zn is imperative. This study
focused on effect of oil palm frond cellulose nanocrystal (OPF-CNC) as a reinforcing
nanofiller to improve epoxy-Zn barrier properties. In this work, OPF biomass was
utilised in preparing OPF-CNC by H2SO4 hydrolysis. OPF was initially pre-treated
with autohydrolysis pre-treatment. The surface analyses via transmission electron
microscopy (TEM) confirmed that the OPF-CNC is a nanofiller with an average length
and diameter of 95.09 and 6.81 nm, respectively. The anticorrosive performance of
epoxy-Zn coating and modified epoxy-Zn coating was investigated using
electrochemical analyses via electrochemical impedance spectroscopy (EIS),
potentiodynamic polarization (PD) and open circuit potential (OCP). The anticorrosive
performance and surface properties of modified epoxy-Zn (E-Zn-0.5) were compared
with commercial zinc chromate paint. It was revealed that E-Zn-0.5 has higher
inhibition efficiency (99 %) than commercial paint (70 – 80 %). Based on wettability
study, E-Zn-0.5 shows the highest hydrophobicity (100.5 ± 0.70°) than commercial
paint (91.04 ± 1.20°). The hardness test revealed that the coating’s hardness value for
E-Zn-0.5 is higher than commercial paint of 0.61 and 0.25 GPa, respectively. Thus,
the improved corrosion protection properties of epoxy-Zn with the addition of OPF CNC proof the potential of OPF biomass waste to be utilized as an alternative in
renewable green materials. |
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