Tensile Properties of Open Hole and Unhole Sugar Palm ‘Ijuk’ (SPI) Fibre Composite Treated with Sodium Hydroxide (NaOH)

Engineering

• Composite Fiber 100%
• Tensile Property 100%
• Open Hole 100%
• Fiber-Reinforced Polymer 100%
• Ultimate Tensile Strength 66%
• Young's Modulus 33%
• Tensile Test 33%
• Tensile Stress σ 33%
• Mm Diameter 33%
• Mechanical Performance 33%
• Hand Lay-up 33%
• Interfacial Adhesion 33%
• Polymer Matrix 33%
• Composite Specimen 33%
• Elongation at Break 33%
• Stress Concentration 33%
• Diameter Hole 33%
• Geometric Discontinuity 33%

Keyphrases

• Sodium Hydroxide 100%
• Fiber Composites 100%
• Tensile Properties 100%
• Sugar Palm 100%
• Open Hole 100%
• Fiber-reinforced Polymer Composites 42%
• NaOH Treatment 42%
• Tensile Strength 14%
• Mechanical Behavior 14%
• Composite Specimen 14%
• Tensile Stress 14%
• Tensile Test 14%
• Young's Modulus 14%
• Mechanical Performance 14%
• High Strength 14%
• Polymer Matrix 14%
• High Stiffness 14%
• Ultimate Tensile Strength 14%
• Hand Lay-up 14%
• Interfacial Adhesion 14%
• Elongation at Break 14%
• Stress Concentration 14%
• Fiber-matrix Adhesion 14%
• Fiber Matrix 14%
• Synthetic Glasses 14%
• Orientation Strength 14%
• Open-hole Specimens 14%
• Geometric Discontinuities 14%
• Stress Concentrator 14%

Material Science

• Ultimate Tensile Strength 100%
• Reinforced Plastic 100%
• Polymer Composite 100%
• Sodium 100%
• Tensile Property 100%
• Composite Material 100%
• Polymer Matrix 33%
• Young's Modulus 33%
• Stress Concentration 33%
• Glass Fiber 33%