Effect of fibre loading on mechanical properties of jute fibre bundle reinforced gypsum composites

Abir, Nafis; Siddique, Abu Bakr; Begum, Hosne Ara; Gafur, M. A.; Khan, Ayub Nabi; Mahmud, Md. Arif

doi:10.1016/j.heliyon.2023.e18147

Cited by 9 publications

(3 citation statements)

References 37 publications

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“…The compressive strength has increased up to 100% compared to without wrapping. The results of this study support the results of investigations carried out by Abir et al (2023), where the addition of jute fiber to the composite was able to increase its mechanical properties by up to 593% (Abir et al, 2023). This study also supports the results of research conducted by Karua et al (2023), where 2.44% jute fiber mixture can increase the compressive strength of composite materials by up to 140% (Karua et al, 2023).…”

Section: Resultssupporting

confidence: 88%

“…Several studies have been conducted on the durability of composite materials made from natural fibers. Abir et al (2023) conducted experiments to assess the impact of adding jute fibers on the mechanical properties of gypsum plasterboard composites. The research findings indicated that the addition of 6% jute fibers resulted in the highest tensile strength.…”

Section: Introductionmentioning

confidence: 99%

“…The research findings indicated that the addition of 6% jute fibers resulted in the highest tensile strength. However, the incorporation of 8% fibers led to lower tensile and flexural properties compared to lower fiber content (Abir et al, 2023). Maithil et al (2023) conducted a study on the tensile strength of polymer composites reinforced with carbon fibers, jute fibers, and a hybrid combination of both.…”

Section: Introductionmentioning

confidence: 99%

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Application of E-Glass Jute Hybrid Laminate Composite with Curved Shape on Compressive Strength of Cylindrical Column Concrete

Zulfikar,

Yaakob,

Syah

2023

JAETS

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This study provides a better understanding of reinforcing cylindrical concrete columns (CCC) using a hybrid laminated composite material (HLC) composed of jute and e-glass fibers, including the influence of layer quantity on strength and a comparison with previous research. The utilization of these alternative materials may lead to the development of novel and efficient solutions for constructing durable and robust structures. The primary objectives of this research are to assess the effects of employing HLC as a reinforcing layer on CCC compressive strength, optimize the reinforcement process by selecting appropriate layer sequences and types, and analyze the type of fiber damage in relation to the strength of HLC composite material. The materials utilized in this study encompass woven jute fabric sheets, e-glass fiber sheets, and epoxy resin. Compressive strength testing was conducted following ASTM C39 standards. Specimen variations were based on the number and type of reinforcing layers. The results revealed that CCC compressive strength increased by up to 100% with the application of up to three layers of jute compared to an unlayered specimen. Furthermore, CCC compressive strength experienced a remarkable enhancement of up to 150% with the incorporation of HLC composite. Hence, the implementation of HLC demonstrates significant potential for augmenting the strength of concrete structures.

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