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Ryan Schwab
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Wing flexibility reduces the energetic requirements of insect flight
HE Reid, RK Schwab, M Maxcer, RKD Peterson, EL Johnson, ...
Bioinspiration & biomimetics 14 (5), 056007, 2019
452019
A novel fluid–structure interaction framework for flapping, flexible wings
R Schwab, E Johnson, M Jankauski
Journal of Vibration and Acoustics 141 (6), 061002, 2019
152019
Reduced-order modeling and experimental studies of bilaterally coupled fluid–structure interaction in single-degree-of-freedom flapping wings
RK Schwab, HE Reid, M Jankauski
Journal of Vibration and Acoustics 142 (2), 021012, 2020
132020
Quasi three-dimensional deformable blade element and unsteady vortex lattice reduced-order modeling of fluid–structure interaction in flapping wings
R Schwab, J Reade, M Jankauski
Physics of Fluids 34 (12), 2022
62022
Reduced-order modeling and the physics governing flapping wing fluid-structure interaction
R Schwab, E Johnson, M Jankauski
bioRxiv, 2021.06. 11.448136, 2021
32021
Insect wing buckling influences stress and stability during collisions
M Jankauski, R Schwab, C Casey, A Mountcastle
Journal of Computational and Nonlinear Dynamics 17 (11), 111002, 2022
22022
Reduced-Order Modeling and Experimental Studies of Two-Way Coupled Fluid-Structure Interaction in flapping Wings
RK Schwab, HE Reid, MA Jankauski
International Design Engineering Technical Conferences and Computers and …, 2019
22019
Computationally modeling the aeroelastic physics of flapping-wing flight
RK Schwab
Montana State University-Bozeman, College of Engineering, 2023
2023
Influence of flexural rigidity on force production in flapping wings
JE Reade, RK Schwab, MA Jankauski
INTEGRATIVE AND COMPARATIVE BIOLOGY 61, E733-E734, 2021
2021
Efficient Modeling of Fluid-Structure Interaction in Single Degree-of-Freedom Flapping Wings
RK Schwab, MA Jankauski
INTEGRATIVE AND COMPARATIVE BIOLOGY 60, E208-E208, 2020
2020
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