Tribo Performance Studies on Redmud Filled Pineapple Fiber Composite

Sundarakannan, R.; Arumugaprabu, V.; Manikandan, V.; Johnson, R. Deepak Joel

doi:10.1016/j.matpr.2020.04.437

Cited by 23 publications

(7 citation statements)

References 13 publications

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“…Similarly, the erosion resistance of bamboo-epoxy composites also increased with the incorporation of copper slag [22]. Identical outcomes have been reported for the tribo-performance of polyester-pineapple fiber composites loaded up with red mud [23,24]. The erosion response of copper slag filled jute-polyester composites resulted that the incorporation of copper slag as the particulate filler in the fiber-polymer composite system increased the resistance to erosion wear [25].…”

supporting

confidence: 54%

Steady state analysis on sliding wear behavior of waste marble dust filled kenaf‐polyester composites

Nayak,

Satapathy

2023

Materialwissenschaft Werkst

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In view of the rising demand of natural fiber reinforced polymers in engineering applications, the current research is taken on to study the effects of particulate filling in polyester‐kenaf fiber composite in terms of its sliding wear performance. A set of polyester‐based hybrid composites are fabricated with fixed kenaf fiber content and varied quantities of waste marble dust (0 wt. %, 16 wt. % and 32 wt. %). These composites are subjected to dry‐sliding wear trials as per ASTM G‐99 05 under different test conditions and the specific wear rate are estimated. The test results are analyzed to obtain the parametric appraisal of the wear process using response surface method. The analysis reveals that the filler content followed by sliding velocity, normal load and sliding distance has the detrimental impact on the specific wear rate of such hybrid composites. A morphological study is performed using a scanning electron microscope to identify prominent wear mechanisms and it is found that the wear loss is primarily due to the formation of wear tracks, cracks, craters, plastic deformation, wear debris and the removal of matrix layer etc. during the sliding process.

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supporting

confidence: 54%

Steady state analysis on sliding wear behavior of waste marble dust filled kenaf‐polyester composites

Nayak,

Satapathy

2023

Materialwissenschaft Werkst

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“…The erosion parameters of angle of impact (30°, 60°, and 90°), velocity (72, 100, and 129 m/s), and discharge (1.0, 2.5, and 3.3) properties were analyzed. The minimum erosion rate was determined for 10% of the red mud-filled pine angle 60°, the erosion rate 72 m/s, and the eroded flow rate 2.5 g/m 2 [104]. Erosive wear properties of epoxy composites filled with jute fiber and SiC particles were reinforced in different percentages, namely, 20%, 30%, and 40% for jute fiber and 10% and 20% for SiC, respectively.…”

Section: Solid Particle Erosion Wear Of Fiber-/filler-based Polymer C...mentioning

confidence: 99%

Importance of Fiber-/Nanofiller-Based Polymer Composites in Mechanical and Erosion Performance: A Review

Sundarakannan

Balamurugan

Jyothi

et al. 2023

Journal of Nanomaterials

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The addition of nanofillers in the polymer matrix composites (PMC) has shown a considerable improvement in the mechanical properties and acts as a suitable replacement material. Among the various properties, erosion studies play a key role in the establishment of new materials in engineering applications irrespective of material properties. This paper primarily focus on mechanical properties of PMC and provides a view of the erosion studies conducted on various PMC that are reinforced with natural fibers and nanofillers. The study related to natural fiber as secondary reinforcement and nanofiller as primary reinforcement is taken into consideration. The natural fibers such as sisal-, pineapple-, jute-, bamboo-, banana-based polymer composites and their improvement in mechanical properties by the addition of various fillers are compared and reported. From the survey, it was noticed that the incorporation of nanofillers with natural fiber and polymers provides an acceptable range of material behavior. Being the natural fiber and its proper surface treatment enhance erosion resistance behavior.

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“…The authors obtained the lowest specific wear rate for nanocomposites reinforced with the highest content (2.5 wt %) of 110 nm-sized RM particles (i.e., particles with the smallest studied size). A hybrid composite composed of unsaturated polyester resin, pineapple fiber (non-waste material) and RM (10–20 wt %) was evaluated concerning its either sliding wear or erosion resistance by Sundarakannan et al [ 98 ]. The results obtained by the authors indicated that with an increasing weight percentage of RM reinforcement, the sliding wear rate of composites decreases, whereas the erosion wear rate increases, suggesting that the potential utilization of the fabricated composite may depend on its potential industrial application.…”

Section: Industrial Waste Materialsmentioning

confidence: 99%

Tribological Performance of Composites Reinforced with the Agricultural, Industrial and Post-Consumer Wastes: A Review

Sydow

Wojciechowski

et al. 2021

Materials

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Waste management is still one of the leading global challenges in the 21st century. From the European Union’s point of view, the Waste Framework Directive obliges businesses and households to recycle at least 55% of their municipal waste by 2025 and to reach 65% in 2035. Hence there is a great need to seek new solutions for the reuse of various waste materials. One of the most widely used wastes is their utilization as fillers or reinforcements in the metal- or polymer-based composites. The reuse of wastes for the production of tribological materials gives not only environmental benefits related to the transformation of waste into raw materials but also may improve the mechanical and tribological properties of such materials. Moreover, the use of waste reduces the production costs resulting from the lower price of filler materials and longer service life of developed products. The purpose of the current review is, therefore, aimed at the evaluation of the reuse of agricultural, industrial and postconsumer wastes as reinforcements in the composites used for tribological applications. The tribological performance (wear rate, coefficient of friction) of both monolithic and hybrid composites reinforced with waste materials was a particular subject of interest in this review.

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Tribo Performance Studies on Redmud Filled Pineapple Fiber Composite

Cited by 23 publications

References 13 publications

Steady state analysis on sliding wear behavior of waste marble dust filled kenaf‐polyester composites

Steady state analysis on sliding wear behavior of waste marble dust filled kenaf‐polyester composites

Importance of Fiber-/Nanofiller-Based Polymer Composites in Mechanical and Erosion Performance: A Review

Tribological Performance of Composites Reinforced with the Agricultural, Industrial and Post-Consumer Wastes: A Review

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