Characterization and Properties of PP/NBRr/Kenaf Composites with PPMAH Compatibilizer

Kenaf fibre has become one of the best candidates to be used as reinforcement material in polymer composite. However, the adhesion between natural fibre and polymer is weak due to different polarity of natural fibre and hydrophobic polymer. This affects the properties of the composite. One of the method to overcome this compatibility issue is by treating the fibre using sodium hydroxide (NaOH). This study is aimed to evaluate the effect of NaOH treatment on longitudinal and transverse tensile properties of kenaf composites using three different concentration (3, 5, and 7 wt. % NaOH). The kenaf composite test specimens were prepared using filament winding and vacuum bagging techniques. The 0o and 90o tensile tests were conducted in accordance to ASTM standard D3039 in order to obtain longitudinal and transverse tensile properties of treated and untreated kenaf composites. The fracture surfaces of the specimens were observed using scanning electron microscope in order to identify fracture mechanisms involved during tension. NaOH treatment on kenaf fibre resulted in a significant improvement in longitudinal tensile modulus, strength and failure strain. This also indicates an improvement in toughness property as this can be observed through a larger area under graph of tensile stress-strain curve. The SEM micrographs showed that the interfacial adhesion between kenaf fibre and epoxy matrix was improved when the kenaf fibre was treated using NaOH. Therefore, NaOH treatment give positive effects on longitudinal and transverse tensile properties of kenaf composites. Kenaf composite treated with 7wt% NaOH showed the highest tensile strength for both longitudinal and transverse fibre directions.

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Morphological, Thermal and Mechanical Properties Of Green Composite Based On Recycled Polyethylene/polyamide-6/kenaf Composites

Green Polymers and Environmental Pollution Control ◽

10.1201/b19772-8 ◽

2016 ◽

pp. 69-88

Keyword(s):

Mechanical Properties ◽

Polyamide 6 ◽

Thermal And Mechanical Properties ◽

Green Composite ◽

Recycled Polyethylene ◽

Kenaf Composites

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Ballistic Properties of Hybrid Kenaf Composites

Kenaf Fibers and Composites ◽

10.1201/9781351050944-9 ◽

2018 ◽

pp. 145-167

Author(s):

R. Yahaya ◽

S.M. Sapuan ◽

M.R. Ishak ◽

Z. Leman ◽

M. Jawaid

Keyword(s):

Ballistic Properties ◽

Kenaf Composites

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Effects of High-Temperature Exposure on the Mechanical Properties of Kenaf Composites

Polymers ◽

10.3390/polym12081643 ◽

2020 ◽

Vol 12 (8) ◽

pp. 1643 ◽

Cited By ~ 2

Author(s):

Nabilah Afiqah Mohd Radzuan ◽

Dulina Tholibon ◽

Abu Bakar Sulong ◽

Norhamidi Muhamad ◽

Che Hassan Che Haron

Keyword(s):

Mechanical Properties ◽

Natural Fiber ◽

Molding Process ◽

Kenaf Fiber ◽

Polypropylene Composites ◽

Safety Issues ◽

Automotive Parts ◽

Kenaf Composites ◽

Temperature Exposure ◽

Kenaf Fibers

Automotive parts, including dashboards and trunk covers, are now fabricated through a compression-molding process in order to produce lightweight products and optimize fuel consumption. However, their mechanical strength is not compromised to avoid safety issues. Therefore, this study investigates kenaf-fiber-reinforced polypropylene composites using a simple combing approach to unidirectionally align kenaf fibers at 0°. The kenaf composite was found to withstand a maximal temperature of 120 °C. The tensile and flexural strengths of the aligned kenaf composites (50 and 90 MPa, respectively) were three times higher than those of the commercialized Product T (between 39 and 30.5 MPa, respectively) at a temperature range of 90 to 120 °C. These findings clearly showed that the mechanical properties of aligned kenaf fibers fabricated through the combing technique were able to withstand high operating temperatures (120 °C), and could be used as an alternative to other commercial natural-fiber products.

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Performance evaluation of HDPE/MWCNT and HDPE/kenaf composites

Journal of Thermoplastic Composite Materials ◽

10.1177/0892705719868278 ◽

2019 ◽

pp. 089270571986827 ◽

Cited By ~ 3

Author(s):

Nayan Pundhir ◽

Sunny Zafar ◽

Himanshu Pathak

Keyword(s):

Tensile Test ◽

Strain Rate ◽

Polymer Composite ◽

Tensile Modulus ◽

Uniaxial Tensile ◽

Uniaxial Tensile Test ◽

Compression Moulding ◽

Multi Walled Carbon Nanotube ◽

Kenaf Composites ◽

The Impact

The present work deals with the microwave-assisted compression moulding of high-density polyethylene (HDPE)-based composites. In the present work, 20 wt% of reinforcement in the form of kenaf and multi-walled carbon nanotube (MWCNT) was used to fabricate HDPE/kenaf and HDPE/MWCNT polymer composites. The mechanical characterizations of the microwave-processed composites were carried out in terms of uniaxial tensile test with different strain rate, multistep stress relaxation, flexural and impact test. The uniaxial tensile test revealed that the tensile modulus of microwave-processed four-layered HDPE/kenaf polymer composite was 35.2% higher than that of HDPE/MWCNT polymer composite. The HDPE/MWCNT polymer composite showed a minimum of 1.25 GPa and a maximum of 4.7 GPa of elastic modulus when tested at different strain rate. The impact energy absorbed by the HDPE/kenaf polymer composite (1.055 J) was 81.12% higher than the HDPE/MWCNT polymer composite (0.582 J).

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Influence of Montmorillonite Treated with Cetyl Trimethyl Ammonium Bromide Addition in Epoxy-Kenaf Composites

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.754-755.235 ◽

2015 ◽

Vol 754-755 ◽

pp. 235-239

Author(s):

A. Zuliahani ◽

H.D. Rozman ◽

Abdul Rahman Rozyanty

Keyword(s):

Cetyl Trimethyl Ammonium Bromide ◽

Natural Fiber ◽

Environmental Concern ◽

Low Cost ◽

Natural Fibers ◽

Synthetic Fiber ◽

Ammonium Bromide ◽

Synthetic Fibers ◽

Cetyl Trimethyl Ammonium ◽

Kenaf Composites

The use of natural fiber as reinforcement in polymer composites has gained importance recently due to environmental concern and its abundance availability from agricultural crops and wood industry [1]. Many advantages offered by natural fibers over synthetic fibers include low density, greater deformability, low cost per unit volume, recyclability and biodegradability [2-3]. In addition, the mechanical properties of natural fibers such as flax, hemp, jute, sisal and kenaf are comparable with glass fiber in respect of strength and modulus [4]. Hence, many studies have been carried out to replace the synthetic fiber for composite preparation.

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Fiber dispersion during compounding/injection molding of PP/kenaf composites: Flammability and mechanical properties

Materials & Design ◽

10.1016/j.matdes.2015.07.126 ◽

2015 ◽

Vol 86 ◽

pp. 500-507 ◽

Cited By ~ 18

Author(s):

A.D.L. Subasinghe ◽

R. Das ◽

D. Bhattacharyya

Keyword(s):

Mechanical Properties ◽

Injection Molding ◽

Fiber Dispersion ◽

Kenaf Composites

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Influence of Different Matrices on the Tensile and Impact Properties of Treated Kenaf Composites

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.1133.136 ◽

2016 ◽

Vol 1133 ◽

pp. 136-140

Author(s):

Noor Haznida Bakar ◽

Koay Mei Hyie ◽

A. Jumahat ◽

Eli Nadia A. Latip ◽

Anizah Kalam ◽

...

Keyword(s):

Epoxy Resin ◽

Tensile Properties ◽

Testing Machine ◽

Low Velocity ◽

Impact Properties ◽

Weight Percentage ◽

Kenaf Fibre ◽

Naoh Solution ◽

Kenaf Composites ◽

The Impact

This study investigated the mechanical behavior of the treated and untreated kenaf with different matrix resin (epoxy and polyester) using the tensile and low velocity test. The long kenaf fibre was treated with 6% of sodium hydroxide (NaOH) solution for twelve hours in room temperature. The tensile properties of composites at different weight percentage (10,15,20 and 25%) were studied by using Instron Universal Testing Machine according to the standard ASTM D638. Impact test was conducted using an instrumented drop tower device at 10J incident energy level according to the standard ASTM D3763. The results of the study indicated that the epoxy resin reinforced with treated kenaf fibre exhibited higher tensile properties. On the other hand, the impact properties of polyester resin reinforced with treated kenaf fibre show better matrix bonding compared to those with epoxy resin matrices.

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MECHANICAL PROPERTIES, WATER ABSORPTION, AND FAILURE ANALYSES OF KENAF FIBER REINFORCED EPOXY MATRIX COMPOSITES

IIUM Engineering Journal ◽

10.31436/iiumej.v22i2.1747 ◽

2021 ◽

Vol 22 (2) ◽

pp. 316-326

Author(s):

Ikhwan Yusuff ◽

Norshahida Sarifuddin ◽

Siti Norbahiyah Mohamad Badari ◽

Afifah Mohd Ali

Keyword(s):

Water Absorption ◽

Natural Fiber ◽

Mechanical Tests ◽

Fiber Content ◽

Fiber Reinforced Polymer ◽

Fiber Reinforced ◽

Kenaf Fiber ◽

Pull Out ◽

Reinforced Polymer ◽

Kenaf Composites

The potential of natural fibers as one of the candidate materials in the production of fiber-reinforced polymer composites have been widely investigated. In the current study, natural fiber-reinforced polymer composite was fabricated by employing woven kenaf fiber as a reinforcing agent with epoxy resin that acts as a matrix constituent. This composite sample was fabricated using the application of the vacuum infusion method in which the content of kenaf fibers was varied from 30 vol.%, 40 vol.%, and 50 vol.%. The effects of different fiber loadings toward mechanical and physical properties as well as failure properties of kenaf composite were then evaluated. Kenaf composites were subjected to mechanical tests including tensile and flexural tests. The result shows that the highest tensile strength and modulus were attained at 76.67 MPa and 2.31 GPa, respectively with kenaf composite fabricated with 40 vol.% fiber content. Meanwhile, the highest flexural strength and modulus were recorded at 61.24 MPa and 4.20 GPa, also corresponding to kenaf composite that is loaded with 40 vol.% fibers. Fiber pull-out failure was able to be detected in fabricated kenaf composites. Meanwhile, fiber breakage resulting from flexural failure could also be observed in the kenaf composite samples. Apart from that, it was found that as more kenaf fiber was loaded in the composites, the rate of water absorption tended to increase where the highest rate of water absorption was found at 43.33%, displayed by kenaf composite with 50 vol.% of fiber content. ABSTRAK: Potensi gentian semula jadi sebagai salah satu bahan dalam penghasilan komposit polimer bertetulang gentian telah banyak dikaji. Dalam kajian terkini, komposit polimer yang diperkuat dengan gentian semula jadi dibuat dengan menggunakan serat kenaf tenunan sebagai agen penguat dan resin epoksi yang bertindak sebagai matriks. Sampel komposit ini dibuat menggunakan kaedah infusi vakum di mana kandungan serat kenaf digunakan adalah 30 vol.%, 40 vol.%, dan 50 vol.%. Kesan kandungan serat yang berbeza terhadap sifat mekanikal dan fizikal serta sifat kegagalan komposit kenaf kemudiannya dinilai. Komposit Kenaf diuji dengan ujian tegangan dan lenturan. Hasilnya menunjukkan bahawa kekuatan tegangan dan modulus tertinggi dicapai pada 76.67 MPa dan 2.31 GPa, milik komposit kenaf yang dibuat dengan kandungan serat 40 vol.%. Sementara itu, kekuatan dan modulus lenturan tertinggi dicatatkan pada 61.24 MPa dan 4.20 GPa juga milik komposit kenaf yang dimuatkan dengan serat 40% vol. Kegagalan serat terkeluar dapat dikesan pada komposit kenaf buatan. Sementara itu, kerosakan serat akibat kegagalan lenturan juga dapat dilihat pada sampel komposit kenaf. Selain itu, didapati bahawa semakin banyak serat kenaf yang dimuatkan dalam komposit, cendurung meningkatkan kadar penyerapan air di mana kadar penyerapan air tertinggi didapati pada 43.33% yang ditunjukkan oleh komposit kenaf dengan kandungan serat 50% vol.

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Commonly Used Types and Recent Development of Ankle-Foot Orthosis: A Narrative Review

Healthcare ◽

10.3390/healthcare9081046 ◽

2021 ◽

Vol 9 (8) ◽

pp. 1046

Author(s):

Yoo Jin Choo ◽

Min Cheol Chang

Keyword(s):

Stance Phase ◽

Narrative Review ◽

Foot Drop ◽

Ankle Foot Orthosis ◽

Physical Conditions ◽

Heel Contact ◽

Foot Problems ◽

Kenaf Composites ◽

Foot Orthosis ◽

Ankle And Foot

(1) Background: ankle-foot orthosis (AFO) is the most commonly prescribed orthosis to patients with foot drop, and ankle and foot problems. In this study, we aimed to review the commonly used types of AFO and introduce the recent development of AFO. (2) Methods: narrative review. (3) Results: AFO prevents the foot from being dragged, provides a clearance between the foot and the ground in the swinging phase of gait, and maintains a stable posture by allowing heel contact with the ground during the stance phase. In clinical practice, the most commonly used AFO include plastic AFO, walking boot, UD-Flex, and carbon fiber AFO. In addition, for compensating the demerits of these conventional AFOs, new types of AFOs, including AF Servo, TurboMed, three-dimensionally printed AFO, and AFO made from kenaf composites, were developed. (4) Conclusions: we think that our review can guide clinicians in selecting and prescribing the appropriate AFO for each patient in accordance with their specific physical conditions.

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