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

Sundarakannan, R.; Balamurugan, K.; Jyothi, Y.; Arumugaprabu, V.; Sathish, T.; Mahmoud, Zakaria M. M.; Yousef, El Sayed; Basheer, Dadapeer; Shaik, Saboor

doi:10.1155/2023/3528977

Cited by 5 publications

(3 citation statements)

References 132 publications

(120 reference statements)

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“…Potluri et al [16] studied the influence of architectural topology on the impact damage of 3D woven composites and reported that the ability to withstand damage depended on the weave topology geometry of individual tows. Also, 3D woven textiles showed significant damage resistance when compared with 2D laminated composites [17]. Textile composites could benefit from rate-dependent deformation through the large angular rotation between warp and weft yarns; hence, their deformation was dominated by shear behaviour [18].…”

Section: Introductionmentioning

confidence: 99%

“…To date, there are a number of published data on such rate-dependent solid-particle erosion of these advanced textile composites [15][16][17][18][19][20][21][22][23]. Some early studies [20][21][22][23] showed that the fibre structures might influence erosive characteristics of the composites and the erosion could lie in a transition zone between brittle and ductile material behaviours.…”

Section: Introductionmentioning

confidence: 99%

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Erosive Wear of Structured Carbon-Fibre-Reinforced Textile Polymer Composites under Sands Blasting

Deng,

Garg,

Bradley

2024

Lubricants

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Textile polymer composite is made of structured fibre matrix using textile technologies in fabrication, and gains benefits from strong mechanical properties with extra light weight. However, erosion behaviours and associated wear mechanisms of the composites may be influenced by the fibre structures due to heterogeneous composition and complex architectural topologies. Understanding the erosive mechanisms of the structured composites can be important, not only for preventing surface damage and loss of mechanical strength but also for improving design and fabrication of the composites. This paper presents an experimental study of erosive wear under sand blasting on 3D woven carbon-fibre-reinforced textile composites with epoxy. The architectural topology methods of the composites include non-crimped bidirectional, tufted bidirectional, 3D layer-to-layer and 3D orthogonal textile methods. The erosion tests were conducted on four impact angles (20°, 30°, 45° and 90°) under one impact velocity at 40 m/s. The study results show that the erosive mechanism of the textile composites is different from that of the neat substrate material. The observations from this study also reveal the different erosive behaviours between the composites with different fibre structures. It concludes that architectural structures can influence the erosion of a textile composite but will not result in significant differences in the wear resistance of the composites (<20%).

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Erosive Wear of Structured Carbon-Fibre-Reinforced Textile Polymer Composites under Sands Blasting

Deng,

Garg,

Bradley

2024

Lubricants

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“…Utilizing Nano fillers offers the advantage of needing fewer fillers to achieve specific multifunctional properties, compared to traditional microscale fillers. Combining GFRP composites with Nano fillers significantly enhances their performance, particularly in structural applications [1]. Different production parameter combinations yield distinct optimal outcomes.…”

Section: Introductionmentioning

confidence: 99%

Exploring the Impact of TiO2 and MgO Nanoparticles on the Mechanical and Topographical Characteristics of Glass Fiber Reinforced Polymer (GFRP) Composites with Varied Lay-up Sequences: A Taguchi Analysis

2024

Int. Res. J. multidiscip. Technovation

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A revolutionary composite material, blending Glass Fiber Reinforced Polymer (GFRP) with advanced nanofillers like TiO2 and MgO, showcases remarkable versatility in various industries due to its unique properties. The process involves precise control of key factors, including fiber stacking sequence (F.S.S) and nanofiller integration (MgO and TiO2). The vacuum bagging process is employed in the production of nanocomposite laminates. Experimental studies have been conducted to assess the performance of composites with and without nanofillers, with a specific focus on crucial mechanical properties, namely ultimate tensile strength (U.T.S), flexural strength (F.S), impact strength (I.S), and hardness (H). The Taguchi L9 orthogonal array design optimizes parameters and enhances mechanical properties. Comparisons reveal significant improvements with nanofillers, including a 31.96% increase in ultimate tensile strength and a substantial 68.43% enhancement in flexural strength. ANOVA results highlight the critical impact of fiber stacking sequence on ultimate tensile strength (63.65%), flexural strength (65.70%), and impact strength (9.30%), while nanofillers play a lesser role, contributing 11.71% to ultimate tensile strength, 2.66% to flexural strength, and 3.61% to impact strength. Notably, in composite hardness, nanofillers play a more significant role, contributing 39.22%, while the influence of fiber stacking sequence is lower at 3.29%.

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A review study on discrete fibers used for concrete pavement

Mann,

Singh

2023

Materials Today: Proceedings

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

Cited by 5 publications

References 132 publications

Erosive Wear of Structured Carbon-Fibre-Reinforced Textile Polymer Composites under Sands Blasting

Erosive Wear of Structured Carbon-Fibre-Reinforced Textile Polymer Composites under Sands Blasting

Exploring the Impact of TiO2 and MgO Nanoparticles on the Mechanical and Topographical Characteristics of Glass Fiber Reinforced Polymer (GFRP) Composites with Varied Lay-up Sequences: A Taguchi Analysis

A review study on discrete fibers used for concrete pavement

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