Geodesic
Alkaline earth metal azides. The ways of obtaining. Physico-chemical properties. Perspectives of application
Vestnik Samarskogo universiteta. Estestvennonaučnaâ seriâ, no. 2 (2011), pp. 190-200 Cet article a éte moissonné depuis la source Math-Net.Ru

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Physical-chemical properties of alkaline earth metal azides are considered in this article in detail. Possibilities of wide use of the substances is shown, familiar ways of obtaining it are examined.
Keywords: alkaline earth metal azides
Mots-clés : barium azide, calcium azide, strontium azide. 
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     title = {Alkaline earth metal azides. {The} ways of obtaining. {Physico-chemical} properties. {Perspectives} of application},
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A. A. Mokrov; I. K. Kukushkin; E. M. Bykonya; P. P. Purygin. Alkaline earth metal azides. The ways of obtaining. Physico-chemical properties. Perspectives of application. Vestnik Samarskogo universiteta. Estestvennonaučnaâ seriâ, no. 2 (2011), pp. 190-200. http://geodesic.mathdoc.fr/item/VSGU_2011_2_a19/

[1] Curtius T., Rissom J., “Neue Untersuchungen uber Stickstoffwasserstoff N$_3$H”, Journal fur Praktische Chemie, 58:1 (1898), 261–309 | DOI

[2] Torkar K., Krischner H., Radl H., “Bariumazide und die bariumazidhydrate”, Monatshefte fur Chemie / Chemical Monthly, 96:3 (1965), 932–940, Springer Wien. | DOI

[3] Pai–Verneker V. R., Blais M., “Photodecomposition of aqueous solutions of barium azide”, Journal of Chemical Physics, 72 (1968), 774–778 | DOI

[4] Tiede E., “Die Zersetzung der Alkali- und Erdalkali-azide im Hochvakuum zur Reindarstellung von Stickstoff”, Berichte der deutschen chemischen Gesellschaft, 49:2 (1916), 1742–1745 | DOI

[5] Wohler L., Martin F., “Die Sensibilitat der Azide”, Zeitschrift fur Angewandte Chemie, 30:9 (1917), 33–39 | DOI

[6] Petrikaln A., “Uber die Explosionsspektra des Quecksilberfulminats und einiger Azide”, Zeitschrift fur Physik A Hadrons and Nuclei, 37:7,8 (1926), 610–618 | DOI

[7] Marke D. J., “The thermal decomposition of calcium azide”, Transactions of the Faraday Society, 33 (1937), 770 | DOI

[8] Garner W. E., Reeves L. E., “The thermal decomposition of the alkaline earth azides”, Transactions of the Faraday Society, 51 (1955), 694 | DOI

[9] Ralph P., “Preparation of single crystals of Barium azide”, Nature, 207 (1965), 1087–1088 | DOI

[10] Clusius K., Flubacher P., “Das Trennrohr XXII. Einfluss der Massenverteilung bei der Thermodiffusion zwischen $^40$Ar und H$^35$Cl, H$^37$Cl, D$^35$Cl und D$^37$Cl”, Helvetika Chimica Acta, 41 (1958), 2323–2331 | DOI

[11] Kahovec L., Kohlrausch K. W. F., “Studien zum Raman-Effekt - Mitteilung 164: Stickstoffkorper XXXII (Azide)”, Monatshefte fur Chemie, 77:1 (1947), 180–184 | DOI

[12] Bagal L. I., Khimiya i tekhnologiya initsiiruyuschikh vzryvchatykh veschestv, Mashinostroenie, M., 1975

[13] Skomarovskii V. S., Effekty kumulyativnoi inzhektsii bariya v nizhnei ionosfere, M., 1981

[14] Razrabotka i sovershenstvovanie konteinerov dlya issledoyvaniya geofizicheskikh yavlenii metodom iskusstvennykh obrazovanii v ionosfere i magnitosfere, Otchet o NIR, KPtI, Kuibyshev, 1983

[15] Samorasprostranyayuschiisya vysokotemperaturnyi sintez: teoriya i praktika, ISMAN, Chernogolovka, 2001, 24

[16] Goluba A. M., Keler Kh., Skopenko V. V., Khimiya psevdogalogenidov: Azidy schelochno-zemelnykh metallov, monografiya, Vischa shkola, Kiev, 1981, 360 pp.

[17] V. V. Andreev i dr., “Pirotekhnicheskii zamedlitel dlya udarno-volnovykh trubok (UVT)”, Nauka. Promyshlennost. Oborona, trudy X Vserossiiskoi nauchno-tekhnicheskoi konferentsii, Izd-vo NGTU, Novosibirsk, 2009, 20–23

[18] V. V. Andreev i dr., “Razvetvitel detonatsii (RD) dlya udarno-volnovykh trubok (UVT)”, Nauka. Promyshlennost. Oborona, Trudy XI Vserossiiskoi nauchno-tekhnicheskoi konferentsii, Izd-vo NGTU, Novosibirsk, 2010, 20–22