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FRP strengthened aluminium tubular sections subjected to web crippling
S.M. Zahurul Islam
,
Ben Young
Research output
:
Journal article publication
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Journal article
›
Academic research
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peer-review
34
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Dive into the research topics of 'FRP strengthened aluminium tubular sections subjected to web crippling'. Together they form a unique fingerprint.
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Keyphrases
Fiber Reinforced Polymer
100%
Web Crippling
100%
Tubular Sections
100%
Polymer Plate
50%
Adhesion
33%
Failure Mode
33%
Structural Members
33%
Fiber-reinforced Polymer Strengthening
33%
Deformation Behavior
16%
Debonding
16%
Rectangular Hollow Section
16%
Heat-resistant Aluminum Alloy
16%
Loading Conditions
16%
Failure Load
16%
Cohesion
16%
Aluminum Tube
16%
Large Values
16%
Concentrated Load
16%
Slenderness Ratio
16%
Square Hollow Section
16%
Web Crippling Failure
16%
Interlaminar Failure
16%
Cohesive Failure
16%
AA6061-T6
16%
Web Crippling Strength
16%
Load to Failure
16%
Web Slenderness
16%
End-two-flange
16%
Aluminum Sections
16%
Engineering
Fiber-Reinforced Polymer
100%
Failure Mode
25%
Structural Member
25%
Loading Condition
12%
Deformation Behavior
12%
Test Specimen
12%
Failure Load
12%
Concentrated Load
12%
Test Program
12%
Interlaminar Failure
12%
Rectangular Hollow Section
12%
Debonding
12%
Square Hollow Section
12%
Reinforced Plastic
12%
Aspect Ratio
12%