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- ...portant when creating mixtures of explosives. One example is the family of explosives called amatols, which are mixtures of [[ammonium nitrate]] and [[Trinitroto [[Category:Explosives engineering]]3 KB (503 words) - 20:10, 17 June 2019
- ...5 °C)<br>0.168 g/100 ml (98.6 °C)<ref>Taylor; Rinkenbach; Industrial and Engineering Chemistry; vol. 15; (1923); p. 280; Journal of the American Chemical Societ ...5 °C)<br> 0.41 g/100 ml (73.3 °C)<ref>Taylor; Rinkenbach; Industrial and Engineering Chemistry; vol. 15; (1923); p. 280; Journal of the American Chemical Societ6 KB (597 words) - 14:25, 8 July 2019
- ...al's phase: in gases it ranges from 1,800 m/s to 3,000 m/s, while in solid explosives between 4,000 m/s to 10,300 m/s. ...elocity</ref><ref>http://www.globalsecurity.org/military/systems/munitions/explosives.htm</ref>22 KB (2,478 words) - 21:19, 26 October 2020
- This enables engineers to determine the proper masses of different explosives when applying blasting formulas developed specifically for TNT. For example [[Category:Explosives engineering]]1 KB (167 words) - 20:09, 17 June 2019
- [[Category:Explosives engineering]]1 KB (198 words) - 20:10, 17 June 2019
- [[Category:Explosives engineering]]483 B (66 words) - 20:10, 17 June 2019
- ...dings of the Royal Society of London, Series A: Mathematical, Physical and Engineering Sciences; vol. 235; (1956); p. 106 - 119</ref> [[Category:Primary explosives]]4 KB (472 words) - 21:54, 28 December 2021
- ...1.13 g/cm<sup>3</sup> at standard conditions.<ref>Cooper, P. W. Explosives Engineering. s.l. : Wiley-VCH, Inc, 1996. pp. 188-263. ISBN 0-471-18636-8</ref> ...s considered explosive material.<ref>https://www.atf.gov/explosives/binary-explosives</ref>3 KB (442 words) - 17:30, 12 July 2020
