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Optimized design of pultruded composite beams
Susan C. Mantell
, Brent Hoiness
Mechanical Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
6
Scopus citations
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Dive into the research topics of 'Optimized design of pultruded composite beams'. Together they form a unique fingerprint.
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Keyphrases
Design Optimization
100%
Box Beam
100%
Composite Beam
100%
Pultruded Composite
100%
Beam Model
50%
Beam Design
50%
Deflection
33%
Composite Box Beam
33%
Optimization Problem
16%
Model Prediction
16%
Commercially Available
16%
Failure Criterion
16%
Optimization Methods
16%
Numerical Search
16%
Bending Stiffness
16%
Percentage Reduction
16%
Comparing Models
16%
Classical Lamination Theory
16%
Loading Criterion
16%
Geometric Criterion
16%
Raw Material Cost
16%
Hollow Cross-section
16%
Minimum Cost Design
16%
Glass Fiber Composite
16%
Sequential Unconstrained Minimization Technique
16%
Beam Bending Model
16%
Engineering
Optimised Design
100%
Composite Beam
100%
Beam Model
100%
Cross Section
66%
Beam Bending
33%
Failure Criterion
33%
Optimisation Problem
33%
Optimization Method
33%
Model Prediction
33%
Material Cost
33%
Bending Stiffness
33%
Classical Lamination Theory
33%
Fiber-Reinforced Composite
33%