Abstract
Oil palm empty fruit bunches (OPEFB) fiber is a natural fiber that possesses many advantages, such as biodegradability, eco-friendly, and renewable nature. The effect of the OPEFB fiber loading reinforced fire retardant epoxy composites on flammability and tensile properties of the polymer biocomposites were investigated. The tests were carried out with four parameters, which were specimen A (constant), specimen B (20% of fiber), specimen C (35% of fiber), and specimen D (50% of fiber). The PET yarn and magnesium hydroxide were used as the reinforcement material and fire retardant agent, respectively. The results were obtained from several tests, which were the horizontal burning test, tensile test, and scanning electron microscopy (SEM). The result for the burning test showed that specimen B exhibited better flammability properties, which had the lowest average burning rate (11.47 mm/min). From the tensile strength, specimen A revealed the highest value of 10.79 N/mm2. For the SEM morphological test, increasing defects on the surface ruptured were observed that resulted in decreased tensile properties of the composites. It can be summarized that the flammability and tensile properties of OPEFB fiber reinforced fire retardant epoxy composites were reduced when the fiber volume contents were increased at the optimal loading of 20%, with the values of 11.47 mm/min and 4.29 KPa, respectively.
Highlights
Nowadays, by increasing worldwide social awareness about the environmental impacts of plastics, the plastic industry has been seeking ecologically friendly materials for their products [1,2,3,4]
The wide industrial applications and high demand for natural fiber composites have resulted from environmental concern and their low cost, easy processing, low density, good corrosion resistance, and high strength to weight ratios [6,7,8]
For replacing existing synthetic polymers or glass fibers, the natural fiber is applied in reinforced polymer composites and natural-based resins [12]
Summary
By increasing worldwide social awareness about the environmental impacts of plastics, the plastic industry has been seeking ecologically friendly materials for their products [1,2,3,4]. The wide industrial applications and high demand for natural fiber composites have resulted from environmental concern and their low cost, easy processing, low density, good corrosion resistance, and high strength to weight ratios [6,7,8]. The properties of oil palm empty fruit bunch bio-fibers (i.e., abundance, low density, low cost, high modulus, harmlessness, and biodegradability) have facilitated the association with polymers to produce composite materials. There is increased awareness about the properties of natural fiber-based epoxy composites to meet engineering requirements [32]. CCoonnvveennttiioonnaallllyy,, tthhee ooiill ppaallmm eemmppttyy ffrruuiitt bbuunncchh ((OOPPEEFFBB)) iiss mmaaiinnllyy uusseedd aass tthhee bbuurrnniinngg ffuueell iinn bbooiilleerrss ttoo ssuuppppllyy eelleeccttrriicciittyy ffoorr tthhee ppllaannttaattiioonn mmiillllss. The main materials used in this study were oil palm empty fruit bunches (OPEFB) fiber,Tehpeoxmyapinolmymateerr,ipaolslyuessetderiynatrhni,sasntdudmyagwneerseiuomil hpyadlmroxeimdep.tyOPfrEuFitBbfiubnecrhwesas(OorPdEeFreBd) ffirboemr, IenpnooxvyatpiovleyPmuelrt,rupsoiloynesStdern yBahrdn,, NanedgemriaSgenmebsiiulamn.hTyhderomxaidtrei.xOuPseEdFBinftihbiesrrwesaesarocrhdwearsedepfrooxmy rIensninovaantidveboPtuhlttrhuesimonatSridxnaBnhddh, aNrdegeenreirSwemerbeilsaunp.
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