Study of composite beams in asymmetric four-point bending
Abstract
Abstract is not available.- asymmetric off-axis four-point bending
- composite materials
- experimental work
- finite element analysis
- glass-reinforced plastic
- interlaminar shear strength
- stress analysis
- Materials Science, Composites
- Polymer Science
- Classical theory
- Composite beam
- Design variables
- Experimental investigations
- Four-point bending
- Glass reinforced plastics
- Interlaminar shear strength
- Numerical results
- Numerical studies
- Numerical values
- Off-axis
- Composite materials
- Finite element method
- Reinforced plastics
- Shear strength
- Stress analysis
- Stress concentration
- Composite beams and girders
- asymmetric off-axis four-point bending
- composite materials
- experimental work
- finite element analysis
- glass-reinforced plastic
- interlaminar shear strength
- stress analysis
- Materials Science, Composites
- Polymer Science
- Classical theory
- Composite beam
- Design variables
- Experimental investigations
- experimental work
- Four-point bending
- Glass reinforced plastics
- Interlaminar shear strength
- Numerical results
- Numerical studies
- Numerical values
- Off-axis
- Composite materials
- Finite element method
- Reinforced plastics
- Shear strength
- Stress analysis
- Stress concentration
- Composite beams and girders
Similar works
Full text
Last time updated on 03/06/2016
This paper was published in DSpace@NTUA (National Technical Univ. of Athens).
Having an issue?
Is data on this page outdated, violates copyrights or anything else? Report the problem now and we will take corresponding actions after reviewing your request.