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DESIGN OF A FULL-SCALE ALUMINUM PLATE TENSEGRITY STRUCTURE
Heather F. Gathman,
Ann C. Sychterz
Civil and Environmental Engineering
Mechanical Science and Engineering
National Center for Supercomputing Applications (NCSA)
Beckman Institute for Advanced Science and Technology
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Keyphrases
Tensegrity Structures
100%
Aluminum Plate
100%
Seismic Activity
33%
Dynamic Relaxation
33%
Civil Engineering
33%
Wind Action
33%
Tensegrity
16%
High Strength
16%
Computational Efficiency
16%
Cable
16%
Static Analysis
16%
Design Development
16%
Design Analysis
16%
Vibration-induced
16%
Surface Element
16%
Canopy Structure
16%
Dynamic Characterization
16%
Eigenfrequency
16%
Serviceability
16%
Bridge Deck
16%
Static Solutions
16%
Self-stress
16%
Element Type
16%
Strength-to-weight Ratio
16%
Roof Coverings
16%
Form-finding
16%
Engineering Criteria
16%
Engineering
Full Scale
100%
Tensegrity Structure
100%
Aluminum Plate
100%
Civil Engineering
33%
Nodes
16%
Computational Efficiency
16%
Tensegrity
16%
Surface Element
16%
Design Development
16%
Design Analysis
16%
Induced Vibration
16%
Form Finding
16%
Static Analysis
16%
Eigenfrequencies
16%
Serviceability
16%
Bridge Decks
16%
Static Solution
16%
Element Type
16%
Strength-to-Weight Ratio
16%
Canopy Structure
16%
Roof Coverings
16%