The objective of this work is to present combined experimental and numerical studies of load-dependent bendtwist coupling effects on the steady-state hydroelastic response of composite hydrofoils. Experimental studies are presented for three composite and one stainless steel hydrofoils, all with the same unloaded geometry and mounted in the same cantilevered configuration. The stainless steel hydrofoil serves as the rigid baseline. Thethree composite hydrofoils are all made of epoxy resin reinforced with the same nominal layup of carbon fiber reinforced polymers and glass fiber reinforced polymers, with the primary difference being the orientation of the structural carbon layers relative to the spanwise axis of the hydrofoils. To compliment...
The objective of this research is to explore the possibility of using Passive Adaptive Composite (PA...
Thesis (Master's)--University of Washington, 2017-08Material-induced bend-twist coupling in laminate...
Hydrofoils are used in the marine industry to produce enough lift to raise the boat and crew out of ...
The objective of this work is to present combined experimental and numerical studies of load-depende...
The present study investigates experimentally and numerically the impact of composite materials on h...
The objective of this work is to investigate the effects of material bend-twist coupling on the cavi...
Cavity shedding frequencies and structural response of a rigid metal hydrofoil and two flexible comp...
This research investigates the fluid-structure interaction and hydroelastic response of a composite ...
In this paper, the hydroelastic response of a NACA0015 composite hydrofoil is studied experimentally...
The ability to tailor the properties of structures made from composite materials gives designers new...
When flying, the hydrofoil presents large deformations which impact significantly its hydrodynamic l...
Composite materials are good candidates for hydrofoil manufacturing, ensuring a good balance between...
In order to take full advantage of the lightweight characteristics of composite materials, design of...
This paper presents results from numerical analysis of the fluid and structure interaction of two di...
When flying, the hydrofoil presents large deformations which impact significantly its hydrodynamic l...
The objective of this research is to explore the possibility of using Passive Adaptive Composite (PA...
Thesis (Master's)--University of Washington, 2017-08Material-induced bend-twist coupling in laminate...
Hydrofoils are used in the marine industry to produce enough lift to raise the boat and crew out of ...
The objective of this work is to present combined experimental and numerical studies of load-depende...
The present study investigates experimentally and numerically the impact of composite materials on h...
The objective of this work is to investigate the effects of material bend-twist coupling on the cavi...
Cavity shedding frequencies and structural response of a rigid metal hydrofoil and two flexible comp...
This research investigates the fluid-structure interaction and hydroelastic response of a composite ...
In this paper, the hydroelastic response of a NACA0015 composite hydrofoil is studied experimentally...
The ability to tailor the properties of structures made from composite materials gives designers new...
When flying, the hydrofoil presents large deformations which impact significantly its hydrodynamic l...
Composite materials are good candidates for hydrofoil manufacturing, ensuring a good balance between...
In order to take full advantage of the lightweight characteristics of composite materials, design of...
This paper presents results from numerical analysis of the fluid and structure interaction of two di...
When flying, the hydrofoil presents large deformations which impact significantly its hydrodynamic l...
The objective of this research is to explore the possibility of using Passive Adaptive Composite (PA...
Thesis (Master's)--University of Washington, 2017-08Material-induced bend-twist coupling in laminate...
Hydrofoils are used in the marine industry to produce enough lift to raise the boat and crew out of ...