Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by
Crossref.
Carr, Zakery
Devoria, Adam
and
Ringuette, Matthew
2013.
Aspect Ratio Effects on the Leading-Edge Circulation and Forces of Rotating Flat-Plate Wings.
Carr, Z. R.
Chen, C.
and
Ringuette, M. J.
2013.
Finite-span rotating wings: three-dimensional vortex formation and variations with aspect ratio.
Experiments in Fluids,
Vol. 54,
Issue. 2,
Bross, M.
Ozen, C. A.
and
Rockwell, D.
2013.
Flow structure on a rotating wing: Effect of steady incident flow.
Physics of Fluids,
Vol. 25,
Issue. 8,
Hartloper, Colin
Kinzel, Matthias
and
Rival, David E.
2013.
On the competition between leading-edge and tip-vortex growth for a pitching plate.
Experiments in Fluids,
Vol. 54,
Issue. 1,
DeVoria, Adam C.
and
Ringuette, Matthew J.
2013.
On the flow generated on the leeward face of a rotating flat plate.
Experiments in Fluids,
Vol. 54,
Issue. 4,
Garmann, D. J.
and
Visbal, M. R.
2014.
Dynamics of revolving wings for various aspect ratios.
Journal of Fluid Mechanics,
Vol. 748,
Issue. ,
p.
932.
Lee, Sang Joon
Lee, Eui Jae
and
Sohn, Myong Hwan
2014.
Mechanism of autorotation flight of maple samaras (Acer palmatum).
Experiments in Fluids,
Vol. 55,
Issue. 4,
Carr, Zakery R.
and
Ringuette, Matthew J.
2014.
Flow Structure of Low-Aspect-Ratio Rotating Wings from Dye Visualization.
AIAA Journal,
Vol. 52,
Issue. 5,
p.
1081.
Cheng, Bo
Roll, Jesse
Liu, Yun
Troolin, Daniel R.
and
Deng, Xinyan
2014.
Three-dimensional vortex wake structure of flapping wings in hovering flight.
Journal of The Royal Society Interface,
Vol. 11,
Issue. 91,
p.
20130984.
Wojcik, Craig J.
and
Buchholz, James H. J.
2014.
Parameter Variation and the Leading-Edge Vortex of a Rotating Flat Plate.
AIAA Journal,
Vol. 52,
Issue. 2,
p.
348.
Wolfinger, M.
and
Rockwell, D.
2014.
Flow structure on a rotating wing: effect of radius of gyration.
Journal of Fluid Mechanics,
Vol. 755,
Issue. ,
p.
83.
Jardin, T.
and
David, L.
2014.
Spanwise gradients in flow speed help stabilize leading-edge vortices on revolving wings.
Physical Review E,
Vol. 90,
Issue. 1,
Wei, Long-Kun
and
Ma, Bao-Feng
2014.
Wing Rock Induced by a Hemisphere–Cylinder Forebody.
Journal of Aircraft,
Vol. 51,
Issue. 2,
p.
606.
Wojcik, Craig J.
and
Buchholz, James H. J.
2014.
Vorticity transport in the leading-edge vortex on a rotating blade.
Journal of Fluid Mechanics,
Vol. 743,
Issue. ,
p.
249.
Wong, Jaime G.
and
Rival, David E.
2014.
Exploring Vortex Stability on Two-Dimensional Rotating Plates with Varying Sweepback.
DeVoria, Adam C.
Carr, Zakery R.
and
Ringuette, Matthew J.
2014.
On calculating forces from the flow field with application to experimental volume data.
Journal of Fluid Mechanics,
Vol. 749,
Issue. ,
p.
297.
Bross, M.
and
Rockwell, D.
2015.
Three-dimensional flow structure along simultaneously pitching and rotating wings: effect of pitch rate.
Experiments in Fluids,
Vol. 56,
Issue. 4,
Raghav, Vrishank
and
Komerath, Narayanan
2015.
Advance ratio effects on the flow structure and unsteadiness of the dynamic-stall vortex of a rotating blade in steady forward flight.
Physics of Fluids,
Vol. 27,
Issue. 2,
Šístek, Jakub
and
Cirak, Fehmi
2015.
Parallel iterative solution of the incompressible Navier–Stokes equations with application to rotating wings.
Computers & Fluids,
Vol. 122,
Issue. ,
p.
165.
Meng, Xue Guang
and
Sun, Mao
2015.
Aerodynamics and vortical structures in hovering fruitflies.
Physics of Fluids,
Vol. 27,
Issue. 3,