A study on the effect of nanoclay addition on the erosion wear characteristics of S-glass/sisal reinforced hybrid polymer composites

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abstract

This study investigated the erosion wear behaviors of S-glass (G) and sisal (S) fibers reinforced with nanoclay (NC). Samples were fabricated using epoxy and polyester matrices through a hand lay-up process, consisting of four fiber layers (GSSG) with varying NC weight percentages (2, 4, 6 wt.%). Tests were conducted at room temperature using angular-shaped silica sand erodents impacting at 148 m/s at angles of 30 degrees, 60 degrees, and 90 degrees. The results showed that erosion wear was highest at a 60 degrees impact angle, indicating a semi-ductile nature of the composites. The hybrid NC polymer composite with 2 wt.% NC exhibited the highest erosion wear resistance at a 90 degrees impingement angle. A significant reduction in wear rate was observed at 2 wt.% NC, with a 43% decrease in Polyester/GSSG and an 18% decrease in Epoxy/GSSG when comparing 60 degrees and 90 degrees impact angles. Polyester-reinforced composites demonstrated superior wear resistance compared to epoxy-reinforced ones. SEM analysis of the eroded surfaces revealed the wear mechanisms involved. These composites are anticipated to be used as high-speed machinery or aggressive environments, enhancing resistance to erosion wear.

keywords

SOLID PARTICLE EROSION; MECHANICAL-PROPERTIES; BEHAVIOR; CARBON; NANOCOMPOSITES; FRICTION; DRY

subject category

Materials Science

authors

Mallampati, SC; Gujjala, R; Manne, AA; Kumar, MSRN; Kanakam, R; Babu, VS; Banea, MD

our authors

foto Mariana Banea

Mariana Banea

Assistant Professor

Groups

G3 - Electrochemical Materials, Interfaces and Coatings

acknowledgements

The authors thank NIT Warangal and Prasad V. Potluri Siddhartha Institute of Technology for providing the testing facilities.

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Publication Details

type
Journal Article
year
2024
journal
DISCOVER MATERIALS
volume
4
article number
82
publisher
SPRINGERNATURE
isbn
2730-7727
issue
1
digital object identifier
10.1007/s43939-024-00149-8
link
gold
web of science article identifier
WOS:001365258900001

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