Optimizing the filler distribution to enhance the interlaminar shear strength and impact resistance of fiber reinforced epoxy composites

Polymer Composites, Год журнала: 2025, Номер unknown

Опубликована: Апрель 4, 2025

Abstract In recent years, there has been a lot of interest in the use natural fibers as reinforcements and ceramic particles fillers polymer composites. However, unoptimized process parameters frequently result flaws such cavity development, non‐homogeneous distribution, poor wettability, particle agglomeration. By optimizing filler %, stirring duration, number fiber layers, this study seeks to improve homogeneous distribution matrix reinforcement. This was accomplished by employing L 27 orthogonal array disperse silicon carbide (SiC) bamboo fiber‐reinforced epoxy The included varying SiC percentage (5%, 11%, 17%), duration (5, 10, 15 min), layers (2, 3, 4). order identify ideal parameter settings compare experimental results with predictions, utility analysis, conjunction an artificial neural network, utilized analyze response parameters, including porosity, inter laminar shear stress (ILSS), impact strength. According results, using 11% SiC, for 10 min, adding four increases strength 62.3% interlaminar 60.9% while lowering porosity 1.19%. These findings emphasize how crucial it is precisely manage processing optimize produce high‐performance composites improved mechanical characteristics few flaws. Highlights A drastic change ILSS from 12 18 MPa witnessed. Porosity dramatically decreased 2.5% after min swirling. Elongated were observed interaction region. Four increase 62.3%.

Язык: Английский

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Review of plastic deformation mechanisms and crystal plasticity modelling of uranium

Materials Science and Engineering A, Год журнала: 2025, Номер unknown, С. 148324 - 148324

Опубликована: Апрель 1, 2025

Язык: Английский

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Porosity prediction in LPBF of AISI 316L stainless steel: Refined volumetric energy density and FEM simulation approach

Optics & Laser Technology, Год журнала: 2025, Номер 188, С. 113015 - 113015

Опубликована: Апрель 19, 2025

Язык: Английский

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Recent Progress in Energy Harvesting Technologies for Self‐Powered Wearable Devices: The Significance of Polymers

Polymers for Advanced Technologies, Год журнала: 2025, Номер 36(4)

Опубликована: Апрель 1, 2025

ABSTRACT The growing demand for self‐powered wearable electronic devices in healthcare, fitness, and entertainment has driven significant advancements energy harvesting technologies. This review explores the latest progress mechanisms that enable sustainable autonomous devices, with a particular emphasis on role of polymers their development. Polymers offer unique combination mechanical flexibility, biocompatibility, lightweight properties, making them ideal applications. systematically categorizes major technologies into three primary mechanisms: thermoelectric generators (TEGs), piezoelectric harvesters (PEHs), triboelectric nanogenerators (TENGs). Each section provides an in‐depth discussion working principles, material innovations, fabrication techniques, applications these systems. Beyond fundamental mechanisms, discusses hybrid systems integrate multiple sources to maximize power generation ensure continuous device operation. storage technologies, such as flexible supercapacitors micro‐batteries, is also highlighted address intermittency challenges ambient sources. Despite progress, remain improving conversion efficiency, enhancing durability, optimizing system integration real‐world identifies key research directions overcoming challenges, including advanced materials engineering, miniaturization artificial intelligence‐driven management strategies. findings presented this provide valuable insights development next‐generation paving way efficient electronics seamlessly daily life.

Язык: Английский

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Energy Dissipation Mechanisms in Topologically Interlocking Structures

International Journal of Mechanical Sciences, Год журнала: 2025, Номер unknown, С. 110317 - 110317

Опубликована: Май 1, 2025

Язык: Английский

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Analytical and Finite Element Solution for Functionally Graded Pressure Vessels Subjected to Finite Strain Coupled Axial and Torsional Deformations

Materials, Год журнала: 2025, Номер 18(9), С. 2136 - 2136

Опубликована: Май 6, 2025

This study presents an analytical solution to examine the mechanical behavior of incompressible, functionally graded hyperelastic cylinder under combined extension and torsion. The exp-exp strain energy density function characterizes material, with parameters varying exponentially along radial direction. To validate solution, finite element simulations using a custom UHYPER in ABAQUS are performed. numerical results show strong agreement across different stretch twist levels. stress distribution maximum significantly influenced by exponential parameter governing material gradients. Unlike axial stretch, torsion induces more intricate longitudinal distribution, large twisting producing two extrema that shift toward cylinder’s center outer surface. Longitudinal primarily governs von Mises variations A critical is identified, below which torsion-induced force transitions compression, elongating during twisting. Beyond this shifts from tensile compressive increasing twist, causing initial shortening before further elongation.

Язык: Английский

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Free vibration analysis of annular and flat plates with sinusoidal corrugations using isogeometric analysis and machine learning-based stiffness modeling

Thin-Walled Structures, Год журнала: 2025, Номер unknown, С. 113492 - 113492

Опубликована: Май 1, 2025

Язык: Английский

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Recent Progress in Metal Matrix Hybrid Composites Fabricated via Liquid and Solid-state Processing: Fabrication Techniques, Characteristics and Future Prospects

Journal of Alloys and Compounds, Год журнала: 2025, Номер unknown, С. 181064 - 181064

Опубликована: Май 1, 2025

Язык: Английский

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Modeling of moving distributed load problems: Application of a 2D Ritz method to the double layer thick structures with anisogrid hexagonal lattice layer

Structures, Год журнала: 2025, Номер 78, С. 109257 - 109257

Опубликована: Май 31, 2025

Язык: Английский

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