Ramesh, S.Maruthi Prashanth, B.H.Anne, G.Naik, G.M.Reddy, R.Jagadeesh, C.Sharma, P.Prashanth Pai, M.2026-02-082024Advances in Science, Technology and Innovation, 2024, Vol.2024, , p. 97-102978303200372097830320058929783031867446978303147611297830307608099783031438028978303073025397830315738429783031494949978303178903825228714https://doi.org/10.1007/978-981-96-8327-7_21https://idr.nitk.ac.in/handle/123456789/33534This research looked on the impacts of layer arrange-ment on inter-laminar shear strength (ILSS), tensile, flexural, and impact capabilities of hybrid composite developed from 25% abaca and 25% jute fabrics reinforced 50% vinyl ester. Furthermore, the samples frac-tured under the tensile load were examined using SEM images. Utilizing a hot press process, these hybrid laminates were fabricated and sample preparation and testing were done as per ASTM criteria. The findings demonstrate that among Abaca-Jute-Abaca-Jute (AJAJ), Abaca-Jute-Abaca (AJJA), and Jute-Abaca-Abaca-Jute (JAAJ) vinyl ester composites, the Abaca-Jute-Jute-Abaca (AJJA) composites showed higher tensile modulus and strength by 23–33%, the flexural modulus and strength by 3–22%, the impact behavior, and ILSS strength by 11–33%. These benefits could be attributed to the presence of abaca fiber on the exterior of lami-nates. Fractography studies revealed that the fiber-resin bonding was superior. AJJA composites were found to be stronger than commonly used plastics in automobile interiors, making them a promising alternative. © The Author(s), under exclusive license to Springer Nature Switzerland AG 2024.Bending strengthFiber compositesILSSImpact strengthRHNTensile modulusTensile strength