Evolution of heat transfer at the stagnation point during the detached bow shock establishment (English)
- New search for: Wang, Q.
- Further information on Wang, Q.:
- https://orcid.org/http://orcid.org/0000-0002-0084-9819
- New search for: Li, J. P.
- New search for: Luo, K.
- New search for: Li, J. W.
- New search for: Zhao, W.
- New search for: Wang, Q.
- Further information on Wang, Q.:
- https://orcid.org/http://orcid.org/0000-0002-0084-9819
- New search for: Li, J. P.
- New search for: Luo, K.
- New search for: Li, J. W.
- New search for: Zhao, W.
In:
Shock Waves
: An International Journal on Shock Waves, Detonations and Explosions - Published under the Auspices of The
International Shock Wave Institute
;
31
, 2
;
133-140
;
2021
- Article (Journal) / Electronic Resource
-
Title:Evolution of heat transfer at the stagnation point during the detached bow shock establishment
-
Additional title:Shock Waves
-
Contributors:
-
Published in:Shock Waves : An International Journal on Shock Waves, Detonations and Explosions - Published under the Auspices of The International Shock Wave Institute ; 31, 2 ; 133-140
-
Publisher:
- New search for: Springer Berlin Heidelberg
-
Place of publication:Berlin/Heidelberg
-
Publication date:2021-03-01
-
Size:8 pages
-
ISSN:
-
DOI:
-
Type of media:Article (Journal)
-
Type of material:Electronic Resource
-
Language:English
-
Keywords:
-
Source:
Table of contents – Volume 31, Issue 2
The tables of contents are generated automatically and are based on the data records of the individual contributions available in the index of the TIB portal. The display of the Tables of Contents may therefore be incomplete.
- 101
-
Impacts of grid turbulence on the side projection of planar shock wavesFukushima, G. / Ogawa, S. / Wei, J. / Nakamura, Y. / Sasoh, A. et al. | 2021
- 117
-
Drag reduction in transonic shock-wave/boundary-layer interaction using porous medium: a computational studyRoy, S. / Sandhu, J. P. S. / Ghosh, S. et al. | 2021
- 133
-
Evolution of heat transfer at the stagnation point during the detached bow shock establishmentWang, Q. / Li, J. P. / Luo, K. / Li, J. W. / Zhao, W. et al. | 2021
- 141
-
Effects of aluminum content on the energy output characteristics of CL-20-based aluminized explosives in a closed vesselJiang, C. / Lu, G. / Mao, L. / Wang, Z. et al. | 2021
- 153
-
The modeling of weak shock waves in highly porous powder beds and comments on its relevance to exploding bridgewire (EBW) detonatorsRae, P. J. et al. | 2021
- 165
-
Analysis of the blast waves from the explosions of stoichiometric, rich, and lean propane/oxygen mixturesDewey, J. M. / Sochet, I. et al. | 2021
- 175
-
An evaluation of measured and predicted air blast parameters from partially confined blast wavesLangenderfer, M. / Williams, K. / Douglas, A. / Rutter, B. / Johnson, C. E. et al. | 2021
- 193
-
An assessment of the OpenFOAM implementation of the KNP scheme to simulate strong explosionsMarcantoni, L. F. Gutiérrez / Elaskar, S. / Tamagno, J. / Saldía, J. / Krause, G. et al. | 2021