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The Pultrusion Technology for the Production of Fabric-Cement Composites
Alva Peled,
Barzin Mobasher
Civil and Environmental Engineering
Research output
:
Chapter in Book/Report/Conference proceeding
›
Chapter
12
Scopus citations
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Dive into the research topics of 'The Pultrusion Technology for the Production of Fabric-Cement Composites'. Together they form a unique fingerprint.
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Keyphrases
Cement Composites
100%
Pultrusion Technology
100%
Mechanical Behavior
40%
Low Modulus
40%
Pultruded
40%
Industrial Costs
40%
Process-based
20%
High Performance
20%
Production Process
20%
Novel Technique
20%
Costing Methods
20%
Elastic Modulus
20%
Tensile Performance
20%
Flexural Performance
20%
Strain Softening
20%
Pultrusion
20%
Woven Fabric
20%
Glass Fabric
20%
Fabric Composite
20%
Fly Ash
20%
Composite Product
20%
Cement Matrix
20%
Cost-effective Production
20%
Cement-based
20%
High Content
20%
Fabric-reinforced
20%
Reinforced Cement
20%
Cement-based Composite Materials
20%
Continuous Reinforcement
20%
Glass Mesh
20%
Matrix Modification
20%
Pultrusion Process
20%
Pultruded Composite
20%
Cemented Components
20%
Cell Opening
20%
Polyethylene Mesh
20%
High Performance Fabrics
20%
Short Fiber Reinforcement
20%
Fabric Reinforcement
20%
Material Science
Pultrusion
100%
Mechanical Property
66%
Elastic Moduli
33%
Composite Material
33%
Polyethylene
33%
Work Hardening
33%
Thin Sheet
33%
Composite Fabrics
33%
Engineering
Cement Composite
100%
Pultrusion
100%
Tensiles
16%
Composite Material
16%
Modulus of Elasticity
16%
Short Fiber
16%
Strain Hardening
16%
Hardening Behavior
16%
Matrix Modification
16%
Cement Component
16%