UHMWPE fiber surface modification by atomic layer deposition of alumina

Keyphrases

• Aluminum Oxide 100%
• Atomic Layer Deposition 100%
• Ultra-high Molecular Weight Polyethylene Fiber 100%
• Fiber Surface Modification 100%
• Atomic Force Microscopy 66%
• Young's Modulus 66%
• Epoxy Matrix 66%
• Nanohardness 66%
• Chemical Composition 33%
• Adhesion 33%
• Low Temperature 33%
• X-ray Photoelectron Spectroscopy 33%
• Order of Magnitude 33%
• Surface Treatment 33%
• Deposition Layer 33%
• Surface Morphology 33%
• Superior Mechanical Properties 33%
• Highly Crystalline 33%
• Chemical Surface 33%
• Nanoindentation 33%
• Interfacial Shear Strength 33%
• Fiber Mechanical Properties 33%
• Alumina Deposition 33%
• Fiber Surface 33%
• Fiber Treatment 33%
• Fiber Surface Treatment 33%
• High Tensile Strength 33%
• Microbond Technique 33%
• Ultimate Tensile Strength 33%
• Crystalline Fiber 33%
• Nanoindentation Measurement 33%

Engineering

• Aluminum Oxide 100%
• Polyethylene Fiber 100%
• Atomic Layer Deposition 100%
• Molecular Weight 100%
• Fibre Surface 100%
• Epoxy Matrix 66%
• Atomic Force Microscopy 66%
• Young's Modulus 66%
• Ultimate Tensile Strength 66%
• Indentation 66%
• Nanohardness 66%
• Low-Temperature 33%
• Ray Photoelectron Spectroscopy 33%
• Interfacial Shear Strength 33%
• Surface Morphology 33%
• Fibers Mechanical Property 33%

Material Science

• Aluminum Oxide 100%
• Polyethylene 100%
• Surface Treatment 100%
• Young's Modulus 66%
• Ultimate Tensile Strength 66%
• Nanoindentation 66%
• Nanohardness 66%
• X-Ray Photoelectron Spectroscopy 33%
• Crystalline Material 33%
• Surface Morphology 33%
• Shear Strength 33%