A systematic review on machining of nanocomposite: Present scenario and Future Prospects

Matanda, Blessing Kudzai; Patel, Vijay; Joshi, Anant; Oza, Ankit D.; Prakash, Chander; Prasad, Rajendra

doi:10.1007/s12008-023-01265-0

Cited by 1 publication

(2 citation statements)

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“…Furthermore, the influence of the ferrous, nickel, and tungsten morphology on the final characteristics of the laminate is a basic problem that must be employed. The microstructure of ferrous, nickel, and tungsten fillers in terms of shape and size can significantly influence the composites' physical, mechanical, and thermal characteristics 63–65 . Smaller particles can tend to enhance mechanical characteristics by incrementing the surface area of the filler and advancing better adhesion to the polymer matrix 66–68 …”

Section: Resultsmentioning

confidence: 99%

“…The microstructure of ferrous, nickel, and tungsten fillers in terms of shape and size can significantly influence the composites' physical, mechanical, and thermal characteristics. [63][64][65] Smaller particles can tend to enhance mechanical characteristics by incrementing the surface area of the filler and advancing better adhesion to the polymer matrix. [66][67][68] The capability of a composite to protest damage under load is also one of the most notable and usually estimated characteristics of composites applied in various applications.…”

Section: Effect On Mechanical Propertiesmentioning

confidence: 99%

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Effect of ferrous, nickel, and tungsten fillers reinforcement on glass fiber reinforced vinyl ester/polyester composites

Hemath,

Rangappa,

et al. 2024

Polymer Composites

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The present investigation targets the physical, mechanical, and thermal characteristics of glass fabric‐reinforced vinyl ester/polyester hybrid laminates filled with ferrous, nickel, and tungsten micro‐particles. The metal‐fillers‐glass fabric reinforced vinyl ester/polyester hybrid composites was produced by distributing 1 wt% ferrous, nickel, and tungsten with an ultrasonication probe‐assisted wet layup method. Polyester resin reinforced with glass fabrics and tungsten fillers (PRGT) presents improved mechanical characteristics compared with other hybrid laminates, with tensile, compression, and flexural strength values of 157.89 MPa, 163.74 MPa, and 167.29 MPa, respectively. The fractographic microstructure of tensile fracture PRGT laminates exhibits that glass fibers pull out, microcracks, and lower gaps, because of stronger filler‐fabric‐matrix adhesion when compared with other hybrid laminates. The artificial neural network modeling was conducted to choose the best composite among the various manufactured composites. Statistical analysis was observed from the one‐way ANOVA technique, substantiating that the physical, mechanical, and thermal characteristics of metal fillers‐reinforced hybrid composites were statistically significant.Highlights Metal‐fillers‐glass fabric reinforced vinyl ester/polyester hybrid composites. Selection of the best composite from developed composites by ANN. Tungsten fillers are a useful material for reinforcement.

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Section: Resultsmentioning

confidence: 99%