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Keywords: fluid–structure interaction
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Journal Articles
Article Type: Research Papers
J. Vib. Acoust. April 2020, 142(2): 021012.
Paper No: VIB-19-1435
Published Online: March 7, 2020
...Ryan K. Schwab; Heidi E. Reid; Mark Jankauski Flapping wings deform under both aerodynamic and inertial forces. However, many flapping wing fluidstructure interaction (FSI) models require significant computational resources which limit their effectiveness for high-dimensional parametric studies...
Includes: Multimedia, Supplementary data
Journal Articles
Article Type: Research Papers
J. Vib. Acoust. April 2020, 142(2): 021018.
Paper No: VIB-18-1400
Published Online: January 25, 2020
... by the Noise Control and Acoustics Division of ASME for publication in the J ournal of V ibration and A coustics . 15 09 2018 09 11 2019 09 11 2019 18 12 2019 turbulent wall-pressure fluctuations wavenumber-frequency space-frequency fluid-structure interaction flow-induced...
Journal Articles
Article Type: Research-Article
J. Vib. Acoust. December 2019, 141(6): 061002.
Paper No: VIB-18-1541
Published Online: July 31, 2019
...Ryan Schwab; Erick Johnson; Mark Jankauski Fluidstructure interaction (FSI) plays a significant role in the deformation of flapping insect wings. However, many current FSI models are high-order and rely on direct computational methods, thereby limiting parametric studies as well as insights...
Journal Articles
Article Type: Research-Article
J. Vib. Acoust. October 2019, 141(5): 051015.
Paper No: VIB-18-1397
Published Online: June 17, 2019
....” Overall, these findings reinforce the idea that fluidstructure interaction effects must be taken into account when studying the induced vibrations on hydrofoils inside water tunnels. 1 Corresponding author. Contributed by the Noise Control and Acoustics Division of ASME for publication in the J...
Journal Articles
Article Type: Research-Article
J. Vib. Acoust. August 2019, 141(4): 041002.
Paper No: VIB-18-1396
Published Online: March 25, 2019
... 09 2018 23 01 2019 23 01 2019 vibration analysis experimental modal analysis roving hammer impact fluidstructure interaction intracranial pressure monitoring The human head includes the cranium and intracranial components such as the brain, cerebellum, and cerebrospinal...
Journal Articles
Article Type: Research-Article
J. Vib. Acoust. June 2014, 136(3): 031013.
Paper No: VIB-13-1099
Published Online: April 3, 2014
... at ρ ¯ = 0 . 02 . Fig. 8 Analysis of time step independence in presented algorithm for fluid-structure interaction Finally, the time step independence is verified for the presented algorithm for fluid-structure interaction. Using different time steps, Fig. 8 shows...
Journal Articles
Article Type: Research-Article
J. Vib. Acoust. June 2014, 136(3): 031005.
Paper No: VIB-13-1317
Published Online: March 18, 2014
... elements. In both cases, coupling elements with both structural and pressure DOFs are employed to model fluid-structure interaction. In this section, we describe the RVE and summarize the numerical results reported in Ref. [ 40 ]. Namely, we analyze elastic-wave propagation in a cellular solid...
Journal Articles
Article Type: Research-Article
J. Vib. Acoust. April 2014, 136(2): 021024.
Paper No: VIB-13-1239
Published Online: February 5, 2014
... propagation in a periodic square lattice is analyzed with a finite-element model, which explicitly considers fluid-structure interactions, structural deformations, and fluid-pressure variations. Bloch theorem is employed to enforce symmetry conditions of a representative volume element and obtain a relation...