Effect of fiber orientation on tribological behaviour of Typha angustifolia natural fiber reinforced composites

Mohankumar, D.; Rajeshkumar, L.; Muthukumaran, N.; Ramesh, M.; Aravinth, P.; Anith, R.; Balaji, S.

doi:10.1016/j.matpr.2022.02.062

Cited by 17 publications

(12 citation statements)

References 36 publications

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“…Meanwhile, the augmented fusion threads in the presence of metal elements, and mineral deposits, graphene, crystal, or graphite sliced fibers, most newly, constant fibers appear to be the most appealing. [ 6–9 ]…”

Section: Introductionmentioning

confidence: 99%

Additive manufacturing of jute fiber reinforced polymer composites: A concise review of material forms and methods

et al. 2022

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Additive manufacturing is accelerating in hypersonic speed, which touched upon almost all the nook and corners of the manufacturing sector. The present stage wherein a 3D printer is capable of printing queer hybrid materials was not imagined through conventional manufacturing albeit it is meager existence in a few instances. Its expendable arms stretch to the maximum level that is even clearly addressed in Industry 4.0 too, by making at least a printer in a company for printing specific customized materials. The dream of printing composite material was been a long‐term goal for researchers worldwide. This article primarily focuses on this niche area of printing natural fiber composite materials that too specifically jute fiber‐reinforced composites. Very few pieces of literature are available on additive manufacturing of specific natural fibers. As the technique for printing natural fiber‐reinforced composites is still under evolution, this study will be more interesting as it consolidates the facts and figures involved in 3D of jute fiber reinforced composites alone. Different forms of jute fibers used by the researchers include weaved jute, jute as continuous fiber, filament along with jute, jute fiber as reinforcement, jute used as rope as well as jute fiber as cement matrix and all these forms have been addressed in this review.

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Section: Introductionmentioning

confidence: 99%

Additive manufacturing of jute fiber reinforced polymer composites: A concise review of material forms and methods

et al. 2022

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“…Extracted fibers were then sun dried for 3 h to remove the water and was used for the manufacturing of composites. [ 38 ] Figure 1 shows the process of extraction of TA from the plant.…”

Section: Methodsmentioning

confidence: 99%

“…Optimization of surface quality of the drilled holes was carried out by various researchers using various optimization methods like Taguchi method, response surface methodology (RSM), Technique for Order of Preference by Similarity to Ideal Solution (TOPSIS), gray relational algorithm (GRA), and so forth. [ 36–38 ] Process parameters like speed, feed, drill diameter and depth of cut were mostly considered while the responses considered were delamination at entry and exit, thrust force and torque. [ 39–41 ] Few authors used Taguchi technique and TOPSIS method to determine the delamination at entry and exit and thrust force during the drilling of waste tea leaves filled pineapple fiber reinforced epoxy composites.…”

Section: Introductionmentioning

confidence: 99%

Machinability analysis of Typha angustifolia natural fiber reinforced composites through experimental modeling – Influence of fiber orientation

et al. 2023

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Natural fiber composites are currently considered to be the most sustainable and renewable substitute for synthetic fiber composites in several low and medium‐density applications. Various research works are ongoing to evaluate the machinability of plant‐based natural fiber composites. In the current investigation, an attempt has been made to fabricate and examine the drilling behavior of Typha angustifolia fiber reinforced (TAFR) composite. Composites were manufactured using Typha angustifolia fibers in unidirectional (UD) and bidirectional (BD) orientations using the epoxy matrix through the compression molding technique. Fibers were characterized using the X‐ray diffraction method to determine the crystallinity index and crystallite size. Drilling experiments were conducted on TAFR composites and using Taguchi's L18 mixed‐level design with various process parameters the experiments were conducted. The optimal experimental combination rendering the lowest value of exit delamination and thrust force was determined using Taguchi‐TOPSIS hybrid approach. A quadratic model was also developed to predict the response of drilling. Drilled hole morphology was analyzed using scanning electron microscopy to know about various failure mechanisms and damages induced during the drilling operations. It was found from the results that the lowest speed and feed rate and higher drill diameter rendered minimal delamination and thrust force for both UD and BD TAFR composites.

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“…For a 50 mm thickness, the darbha fiber had the best NRC of 0.86, whereas the ripe bulrush and darbha combination had the best NRC of 0.90, which is much more responsible for absorbing sound there in the crucial frequency spectrum of 500 to 2000 Hz. Natural fiber fillers of this type are excellent sound absorbers and are found in a variety of settings, including classrooms, recording studios, and theatres [ 118 , 119 , 120 ]. Table 2 shows the sound absorption coefficient of various fiber-reinforced polymer composites along with the density or porosity of the composites, and the measuring frequency.…”

Section: Sound Absorption Behavior Of Polymer Compositesmentioning

confidence: 99%

A Critical Review on Hygrothermal and Sound Absorption Behavior of Natural-Fiber-Reinforced Polymer Composites

et al. 2022

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Increasing global environmental problems and awareness towards the utilization of eco-friendly resources enhanced the progress of research towards the development of next-generation biodegradable and environmentally friendly material. The development of natural-based composite material has led to various advantages such as a reduction in greenhouse gases and carbon footprints. In spite of the various advantages obtained from green materials, there are also a few disadvantages, such as poor interfacial compatibility between the polymer matrix and natural reinforcements and the high hydrophilicity of composites due to the reinforcement of hydrophilic natural fibers. This review focuses on various moisture-absorbing and sound-absorbing natural fiber polymer composites along with the synopsis of preparation methods of natural fiber polymer composites. It was stated in various studies that natural fibers are durable with a long life but their moisture absorption behavior depends on various factors. Such natural fibers possess different moisture absorption behavior rates and different moisture absorption behavior. The conversion of hydrophilic fibers into hydrophobic is deemed very important in improving the mechanical, thermal, and physical properties of the natural-fiber-reinforced polymer composites. One more physical property that requires the involvement of natural fibers in place of synthetic fibers is the sound absorption behavior. Various researchers have made experiments using natural-fiber-reinforced polymer composites as sound-absorbing materials. It was found from various studies that composites with higher thickness, porosity, and density behaved as better sound-absorbing materials.

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Effect of fiber orientation on tribological behaviour of Typha angustifolia natural fiber reinforced composites

Cited by 17 publications

References 36 publications

Additive manufacturing of jute fiber reinforced polymer composites: A concise review of material forms and methods

Additive manufacturing of jute fiber reinforced polymer composites: A concise review of material forms and methods

Machinability analysis of Typha angustifolia natural fiber reinforced composites through experimental modeling – Influence of fiber orientation

A Critical Review on Hygrothermal and Sound Absorption Behavior of Natural-Fiber-Reinforced Polymer Composites

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