Experimental data for 'Reconstruction of Surface Pressures on Flat Plates Impacted by Blast Waves Using the Virtual Fields Method' (doi:10.18710/GXKVUR)

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Experimental data for 'Reconstruction of Surface Pressures on Flat Plates Impacted by Blast Waves Using the Virtual Fields Method'

doi:10.18710/GXKVUR

DataverseNO

2022-09-30

1

Kaufmann, Rene; Aune, Vegard, 2022, "Experimental data for 'Reconstruction of Surface Pressures on Flat Plates Impacted by Blast Waves Using the Virtual Fields Method'", https://doi.org/10.18710/GXKVUR, DataverseNO, V1

Experimental data for 'Reconstruction of Surface Pressures on Flat Plates Impacted by Blast Waves Using the Virtual Fields Method'

doi:10.18710/GXKVUR

Kaufmann, Rene (NTNU – Norwegian University of Science and Technology)

Aune, Vegard (NTNU – Norwegian University of Science and Technology)

NTNU – Norwegian University of Science and Technology

DataverseNO

NTNU – Norwegian University of Science and Technology

Kaufmann, Rene

Kaufmann, Rene

2022-07-29

https://doi.org/10.18710/GXKVUR

Engineering, Physics, blast loading, virtual fields, method, pressure reconstruction

<p>Measurements on a flat steel plate were conducted in order to demonstrate a novel approach to reconstruct full-field pressure distributions on said plate using the virtual fields method (VFM). Pressure was applied using SIMLab Shock Tube Facility at the Department of Structural Engineering, NTNU specialized on blast wave generation. Deflectometry was used to measure time-resolved slope changes on the plate surface. Background Oriented Schlieren was used to visualize the approaching blast wave. The shock tube exit was modified with 3 different blockages to change the symmetry of the generated blast waves.</p> <p>Pressure transducer measurements were conducted to compare the VM pressure reconstructions to an established technique.</p> <p></p> <p>This dataset contains the experimental data acquired during the blast tests on the steel plate.</p>

Olufsen, S, Kaufmann, R, Fagerholt, E, Aune, V, (2021) Recolo: A python package for the reconstruction of surface pressure loads from kinematic fields using the virtual fields method, Journal of Open Source Software 6 (67) 3869.

10.21105/joss.03980

Olufsen, S, Kaufmann, R, Fagerholt, E, Aune, V, (2021) Recolo: A python package for the reconstruction of surface pressure loads from kinematic fields using the virtual fields method, Journal of Open Source Software 6 (67) 3869.

Kaufmann, R., Olufsen, S. N., Fagerholt, E., Aune, V. (accepted 2022-08). Surface Pressure Reconstruction on Flat Plates Impacted by Blast Waves. International Journal of Impact Engineering.

10.1016/j.ijimpeng.2022.104369

Kaufmann, R., Olufsen, S. N., Fagerholt, E., Aune, V. (accepted 2022-08). Surface Pressure Reconstruction on Flat Plates Impacted by Blast Waves. International Journal of Impact Engineering.

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