Email this article Microstructure of Shocked Preheated Bismuth and Detection of Melting at Pressures of 1.6–2.4 GPa
- Authors: Balandina A.N.1, Burnashov V.A.1, Voronin A.V.1,2, Kalinkin S.Y.1,2, Mikhailov A.L.1,2, Podurets A.M.1,2, Simakov V.G.1,2, Tereshkina I.A.1,2, Tkachenko M.I.1,2, Trunin I.R.1,2, Shestakov E.E.1,2
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Affiliations:
- Institute of Physics of Explosion, Institute of Experimental Physics (VNIIEF)
- Sarov Physical-Technical Institute
- Issue: Vol 54, No 5 (2018)
- Pages: 535-542
- Section: Article
- URL: https://journals.rcsi.science/0010-5082/article/view/153186
- DOI: https://doi.org/10.1134/S0010508218050040
- ID: 153186
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Abstract
The structure of bismuth samples after shock-wave loading at pressures of 0.7–2.4 and 22–32 GPa was studied. Before loading, the samples were at room temperature or heated to 230–240°C. Loading by a pressure of 1.5–2 GPa at an initial temperature of 233–240°C led to a structural change in bismuth, indicating melting of the sample in the shock wave. The time of shock-wave loading was ≈0.7 μs.
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About the authors
A. N. Balandina
Institute of Physics of Explosion, Institute of Experimental Physics (VNIIEF)
Email: am.podurets@gmail.com
Russian Federation, Sarov, 607188
V. A. Burnashov
Institute of Physics of Explosion, Institute of Experimental Physics (VNIIEF)
Email: am.podurets@gmail.com
Russian Federation, Sarov, 607188
A. V. Voronin
Institute of Physics of Explosion, Institute of Experimental Physics (VNIIEF); Sarov Physical-Technical Institute
Email: am.podurets@gmail.com
Russian Federation, Sarov, 607188; Sarov, 607186
S. Yu. Kalinkin
Institute of Physics of Explosion, Institute of Experimental Physics (VNIIEF); Sarov Physical-Technical Institute
Email: am.podurets@gmail.com
Russian Federation, Sarov, 607188; Sarov, 607186
A. L. Mikhailov
Institute of Physics of Explosion, Institute of Experimental Physics (VNIIEF); Sarov Physical-Technical Institute
Email: am.podurets@gmail.com
Russian Federation, Sarov, 607188; Sarov, 607186
A. M. Podurets
Institute of Physics of Explosion, Institute of Experimental Physics (VNIIEF); Sarov Physical-Technical Institute
Author for correspondence.
Email: am.podurets@gmail.com
Russian Federation, Sarov, 607188; Sarov, 607186
V. G. Simakov
Institute of Physics of Explosion, Institute of Experimental Physics (VNIIEF); Sarov Physical-Technical Institute
Email: am.podurets@gmail.com
Russian Federation, Sarov, 607188; Sarov, 607186
I. A. Tereshkina
Institute of Physics of Explosion, Institute of Experimental Physics (VNIIEF); Sarov Physical-Technical Institute
Email: am.podurets@gmail.com
Russian Federation, Sarov, 607188; Sarov, 607186
M. I. Tkachenko
Institute of Physics of Explosion, Institute of Experimental Physics (VNIIEF); Sarov Physical-Technical Institute
Email: am.podurets@gmail.com
Russian Federation, Sarov, 607188; Sarov, 607186
I. R. Trunin
Institute of Physics of Explosion, Institute of Experimental Physics (VNIIEF); Sarov Physical-Technical Institute
Email: am.podurets@gmail.com
Russian Federation, Sarov, 607188; Sarov, 607186
E. E. Shestakov
Institute of Physics of Explosion, Institute of Experimental Physics (VNIIEF); Sarov Physical-Technical Institute
Email: am.podurets@gmail.com
Russian Federation, Sarov, 607188; Sarov, 607186
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