A | B | C | D | E | F | G | H | I | J | K | L | M | N | O | P | Q | R | S | T | U | V | W | X | Y | Z | AA | AB | AC | AD | AE | AF | ||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
1 | SM Chemical Explosives Data Gathering Project | Last backup: 15/4/2015 11:58PM EST | |||||||||||||||||||||||||||||||
2 | Name | Chemical Properties | Performance Properties | Sensitivity | References | ||||||||||||||||||||||||||||
3 | Count | Chemical Name (blue=need calculations) (red=need data) | Accepted abbreviation(s) | Chemical formula | Mol. Mass | Heat of formation (kJ/mol) | Volume of det. gases (L/kg) (red=calculated by Dornier) | % Nitrogen | Oxygen Balance (%) | TMD (g/cc) | Melting point (C) (decomp. Y/N) | Dcj at TMD (m/s) | Measured density (g/cc) | Measured VoD at measured density (m/s) | Pcj (kbar) | Heat of explosion/kg (kJ/kg) (red=calculated by Dornier) | Explosion temperature (K) (red=calculated by Dornier) | Critical diameter (mm) | Sand crush test (g crushed by 0.4 g explosive) | Sand crushed / volume (volumic brisance) (g/ccm) | Lead block test/10g (weight performance - ccm/10g) | Lead block test for 5 ccm (volumic performance - ccm/5ccm) | Informal Classification | Impact sensitivity (Nm) | Friction sensitivity (N) | ESD Sensitivity (J) | Heat sensitivity (temperature of detonation/explosion) (°C) | Temperature of decomposition (°C) | Data By: | Reference 1 Black = not in public folder Blue = Available in folder | Reference 2 | Reference 3 | |
4 | 1 | 5,5'-Dinitrimino-3,3'-methylene-1H-1,2,4-bistetrazole | DNBTM | C5H6N10O4 | 270.2 | 358 | 702 | 51.8 | -53.3 | 8511 | 1.864 | 309 | 3450 | Primary | 1 | 60 | 242 | Praxichys | 5,5'-Dinitrimino-3,3'-methylene-1H-1,2,4-bistetrazole - a Metal Free Primary Explosive Combining Excellent Thermal Stability and High Performance. Alexander A. DIPPOLD, Michael FELLER, and Thomas M. KLAPÖTKE | ||||||||||||||
5 | 2 | 5,5'-Diamino-3,3'-methylene-1H-1,2,4-bistetrazole | DABTM | Praxichys | 5,5'-Dinitrimino-3,3'-methylene-1H-1,2,4-bistetrazole - a Metal Free Primary Explosive Combining Excellent Thermal Stability and High Performance. Alexander A. DIPPOLD, Michael FELLER, and Thomas M. KLAPÖTKE | ||||||||||||||||||||||||||||
6 | 3 | Bis-guanidinium 5,5'-dinitrimino-3,3'-methylene-1H-1,2,4-triazolate | C7H16N16O4 | 388.3 | 219 | 772 | 57.7 | -74.2 | 1.615 | 7527 | 3434 | 2510 | 40 | 360 | 239 | Praxichys | 5,5'-Dinitrimino-3,3'-methylene-1H-1,2,4-bistetrazole - a Metal Free Primary Explosive Combining Excellent Thermal Stability and High Performance. Alexander A. DIPPOLD, Michael FELLER, and Thomas M. KLAPÖTKE | ||||||||||||||||
7 | 4 | Triaminoguanidinium 5,5'-dinitrimino-3,3'-methylene-1H-1,2,4-triazolate | C6H14N16O4 | 374.3 | 649 | 781 | 59.9 | -64.1 | 1.733 | 8438 | 4611 | 3123 | 40 | 192 | 209 | Praxichys | 5,5'-Dinitrimino-3,3'-methylene-1H-1,2,4-bistetrazole - a Metal Free Primary Explosive Combining Excellent Thermal Stability and High Performance. Alexander A. DIPPOLD, Michael FELLER, and Thomas M. KLAPÖTKE | ||||||||||||||||
8 | 5 | 1,1,3,5,5-Pentanitro-1,5-bis(5-nitrotetrazol-2-yl)-3-azapentane | NTEA | C6H4N16O14 | 524.2 | 651 | 684 | 42.7 | 0 | 2.06 | 65 | 10600 | 1.78 | 9000 | 494 | 6666 | Dornier | Engager's Energetic Derivatives of Tetrazole (2009) | |||||||||||||||
9 | 6 | 4,4�-Dinitro-3,3�-diazenofuroxan | DFF | C4N8O8 | 288 | 667 | 622 | 38.9 | 0 | 2.02 | 10000 | 2.02 | 10000 | 500 | 7771 | Dornier | A review of advanced high performance, insensitive and thermally stable energetic materials emerging for military and space applications (2004) | ||||||||||||||||
10 | 7 | 3,3'-Dinitro-4,4'-azoxyfurazan | DNAF | C4N8O7 | 272.12 | 644 | 659 | 41.2 | -5.9 | 1.91 | 9800 | 458 | 7111 | Dornier | Glyoxime, Diaminofurazan and some Energetic Derivatives, by AXT | ||||||||||||||||||
11 | 8 | Dinitromethyltetrazole | C2H2N6O4 | 174 | 670 | 48.3 | -9.2 | 1.87 | 9594 | 403 | 3 | 28 | Dornier | Azole-Based Energetic Salts, Haixiang Gao | |||||||||||||||||||
12 | 9 | Octanitrocubane | ONC | C8N8O16 | 576 | 594 | 579 | 38.9 | 0 | 2.1 | 10100 | 500 | 8062 | Dornier | Novel Ultrahigh-Energy Materials, M. B. Talawar (2005) | ||||||||||||||||||
13 | 10 | 1-Diazidocarbamoyl-5-azidotetrazole | C2N14 | 220 | 1495 | 712 | 89 | -29.1 | 1.723 | 8960 (9300) | 339 (367) | < 0.25 | < 1 | Dornier | C2N14 : An Energetic and Highly Sensitive Binary Azidotetrazole, Klapötke | ||||||||||||||||||
14 | 11 | 1,1'-Azobis(tetrazole) | C2H2N10 | 166 | 1060 | 809 | 84.3 | -48.2 | 1.774 | 9371 | 6380 | < 1 | < 5 | 80 | Dornier | 1,10-Azobis(tetrazole): A Highly Energetic Nitrogen-Rich Compound with a N10 Chain, Klapötke | |||||||||||||||||
15 | 12 | Bis(triaminoguanidinium) bis(2,2-dinitroethanide)nitroamine | BDNENA salt | C6H22N18O10 | 506.4 | 623 | 963 | 49.79 | -41.1 | 1.99 | 10004 | 462 | 5369 | 132 | Dornier | Super-high-energy materials based on bis(2,2-dinitroethyl)nitramine | |||||||||||||||||
16 | 13 | Cyclotrimethylene trinitramine | RDX | C3H6N6O7 | 222.12 | 70 | 739 | 37.8 | -21.6 | 1.8 | 8936 | 1.767 | 8750 | 349 | 6125 | 4236 | 7 | 120 | 0.1-0.2 | 210 | Praxichys | CURRENT ADVANCES IN RDX REPLACEMENTS, Thomas M. Klapötke and Joerg Stierstorfer* | |||||||||||
17 | 14 | Triaminoguanidinium 1-methyl-5-nitriminotetrazolate | TAG-1MNT | C3H12N12O2 | 248.21 | 569 | 885 | 67.72 | -64.46 | 1.57 | 8765 | 273 | 4883 | 3209 | 8 | 240 | 0.4 | 210 | Praxichys | CURRENT ADVANCES IN RDX REPLACEMENTS, Thomas M. Klapötke and Joerg Stierstorfer* | |||||||||||||
18 | 15 | 3,6-(Bistrinitroethylamino)-1,2,4,5-tetrazine | BTAT | C6H6N12O12 | 438.19 | 336 | 743 | 38.36 | -10.95 | 1.886 | 9261 | 389 | 6135 | 4867 | 6 | 160 | 0.2 | 184 | Praxichys | CURRENT ADVANCES IN RDX REPLACEMENTS, Thomas M. Klapötke and Joerg Stierstorfer* | |||||||||||||
19 | 16 | Hydroxylammonium 5-nitriminotetrazolate | HANT | CH5N7O3 | 163.13 | 290.5 | 874 (853) | 60.12 | 14.71 | 1.785 | 9334 (9236) | 368 (371) | 6062 (6113) | 4380 (4219) | 2 | 40 | 0.3 | 180 | Praxichys | CURRENT ADVANCES IN RDX REPLACEMENTS, Thomas M. Klapötke and Joerg Stierstorfer* | |||||||||||||
20 | 17 | Diaminouronium 5-nitriminotetrazolate | DAUNT | C2H8N10O3 | 220.2 | 70 | 861 | 63.62 | -36.33 | 1.806 | 9012 | 331 | 4873 | 3464 | 5 | 108 | 0.5 | 199 | Praxichys | CURRENT ADVANCES IN RDX REPLACEMENTS, Thomas M. Klapötke and Joerg Stierstorfer* | |||||||||||||
21 | 18 | 1,7-Diamino-1,7-dinitrimino-2,4,6-trinitro-2,4,6-triazaheptane | APX | C4H8N12O10 | 384.18 | 272 | 816 | 43.75 | -8.33 | 1.911 | 9540 | 398 | 5935 | 4489 | 3 | 80 | 0.1 | 174 | Praxichys | CURRENT ADVANCES IN RDX REPLACEMENTS, Thomas M. Klapötke and Joerg Stierstorfer* | |||||||||||||
22 | 19 | Ammonium dinitroguanidine | ADNQ | CH6N6O4 | 166.09 | -1.5 | 934 | 50.6 | -9.63 | 1.735 | 9066 | 327 | 5193 | 3828 | 10 | 252 | 0.4 | 197 | Praxichys | CURRENT ADVANCES IN RDX REPLACEMENTS, Thomas M. Klapötke and Joerg Stierstorfer* | |||||||||||||
23 | 20 | 3-Amino-1-nitroguanidine | ANQ | CH5N5O2 | 119.08 | 77 | 890 | 58.81 | -33.6 | 1.767 | 8977 | 323 | 4934 | 3436 | 20 | 144 | 0.15 | 184 | Praxichys | CURRENT ADVANCES IN RDX REPLACEMENTS, Thomas M. Klapötke and Joerg Stierstorfer* | |||||||||||||
24 | 21 | 3-Amino-1-nitroguanidinium nitrate | ANQN | CH6N6O5 | 182.1 | 22 | 866 | 46.2 | 0 | 1.905 | 9755 | 419 | 6226 | 4357 | 10 | 120 | 0.5 | 130 | Praxichys | CURRENT ADVANCES IN RDX REPLACEMENTS, Thomas M. Klapötke and Joerg Stierstorfer* | |||||||||||||
25 | 22 | Diaminouronium nitrate | DAUNO3 | CH7N5O4 | 153.1 | -180 | 925 | 45.74 | -15.67 | 1.782 | 8829 | 317 | 5014 | 3480 | 9 | 288 | 0.6 | 242 | Praxichys | CURRENT ADVANCES IN RDX REPLACEMENTS, Thomas M. Klapötke and Joerg Stierstorfer* | |||||||||||||
26 | 23 | Dinitroazoxyfurazane | DNAF | C4N8O7 | 272.09 | 706 | 625 | 41.18 | -5.88 | 1.84 | 9203 | 379 | 7078 | 6070 | 2 | 48 | 208 | Praxichys | CURRENT ADVANCES IN RDX REPLACEMENTS, Thomas M. Klapötke and Joerg Stierstorfer* | ||||||||||||||
27 | 24 | Diamino-oxadiazolium 5-aminotetrazolate | DAODH-AT | C3H7N9O | 185.15 | 680 | 802 | 68.09 | -73.45 | 1.76 | 9382 | 348 | 4034 | 3719 | >40 | >360 | 1 | 170 | Praxichys | CURRENT ADVANCES IN RDX REPLACEMENTS, Thomas M. Klapötke and Joerg Stierstorfer* | |||||||||||||
28 | 25 | Triaminoguanidinium dinitriminoazatriazolate | TAG2-DNAAT | C6H20N24O4 | 492.38 | 260 | 352 | 69.27 | 58.49 | 1.70 (est.) | 8890 | 300 | 4681 | 3213 | >40 | >360 | 1 | 212 | Praxichys | CURRENT ADVANCES IN RDX REPLACEMENTS, Thomas M. Klapötke and Joerg Stierstorfer* | |||||||||||||
29 | 26 | Bis(tetrazolyl)amine | H2BTA | C2H3N9 | 153.13 | 648 | 752 | 82.34 | -57.47 | 1.861 | 9275 | 356 | 4632 | 3530 | 10 | >360 | 2 | 250 | Praxichys | CURRENT ADVANCES IN RDX REPLACEMENTS, Thomas M. Klapötke and Joerg Stierstorfer* | |||||||||||||
30 | 27 | Dihydroxylammonium 5,5'-bistetrazole-1,1'-diolate | TKX-50 | C2H8N10O4 | 236.15 | 446.6 | 846 | 59.3 | -27.1 | 1.877 | 9698 | 1.877 | 424 | 6025 | 3954 | 20 | 120 | 0.1 | 221 | Praxichys | Pushing the limits of energetic materials – the synthesis and characterization of dihydroxylammonium 5,5'-bistetrazole-1,1'-diolate† Niko Fischer, Dennis Fischer, Thomas M. Klap€otke,* Davin G. Piercey and Jorg Stierstorfer | ||||||||||||
31 | 28 | 2,4,6-trinitrotoluene | TNT | C7H5N3O6 | 227.13 | -55.5 | 569 | 18.5 | -73.96 | 1.648 | 7459 | 1.6 | 6900 | 235 | 5258 | 3663 | 15 | 353 | 290 | Praxichys | Pushing the limits of energetic materials – the synthesis and characterization of dihydroxylammonium 5,5'-bistetrazole-1,1'-diolate† Niko Fischer, Dennis Fischer, Thomas M. Klap€otke,* Davin G. Piercey and Jorg Stierstorfer | ||||||||||||
32 | 29 | Cyclotetramethylene tetranitramine | ß-HMX | C4H8N8O8 | 296.16 | 116.1 | 908 | 37.84 | -21.61 | 1.904 | 267-280 | 9221 | 1.9 | 9100 | 393 | 5110 | 4185 | 60.4 | 145% TNT | 7 | 112 | 0.2 | 306 | 279 | Praxichys/Dornier | Pushing the limits of energetic materials – the synthesis and characterization of dihydroxylammonium 5,5'-bistetrazole-1,1'-diolate† Niko Fischer, | Encyclopedia of explosives and related items, Fedoroff (vol 3 C605) | Novel Ultrahigh-Energy Materials, M. B. Talawar (2005) | |||||||
33 | 30 | Hexanitrohexaazaisowurtzitane | CL-20, HNIW | C6H6N12O12 | 438.19 | 365.4 | 767 | 38.3 | -10.95 | 2.035 | 9455 | 467 | 6406 | 4616 | 4 | 48 | 0.13 | 215 | Praxichys | Pushing the limits of energetic materials – the synthesis and characterization of dihydroxylammonium 5,5'-bistetrazole-1,1'-diolate† Niko Fischer, Dennis Fischer, Thomas M. Klap€otke,* Davin G. Piercey and Jorg Stierstorfer | |||||||||||||
34 | 31 | Oxalyldihydrazinium nitrate | OHN | C2H7N5O5 | 181.11 | 236.9 | 827 | -22.08 | 1.84 | 8655 | 325 | 4,661 | 3,275 | 11 | >360 | 273 | Praxichys | Oxalylhydrazinium Nitrate and Dinitrate - Efficiency Meets Performance. DENNIS FISCHER, THOMAS M. KLAPOTKE, AND JORG STIERSTORFER | |||||||||||||||
35 | 32 | Oxalyldihydrazinium dinitrate | OHDN | C2H8N6O8 | 244.12 | 925.9 | 825 | 0 | 1.945 | 8594 | 331 | 3,978 | 3,042 | 7 | 200 | 155 | Praxichys | Oxalylhydrazinium Nitrate and Dinitrate - Efficiency Meets Performance. DENNIS FISCHER, THOMAS M. KLAPOTKE, AND JORG STIERSTORFER | |||||||||||||||
36 | 33 | 1,1-dinitro-2,2-diaminoethene | FOX-7, DADNE | C2H4N4O4 | 148.08 | 13.3 | 741 | -21.61 | 1.907 | 8827 | 363 | 5,306 | 3,758 | 12-14 | 340 | 235 | Praxichys | Oxalylhydrazinium Nitrate and Dinitrate - Efficiency Meets Performance. DENNIS FISCHER, THOMAS M. KLAPOTKE, AND JORG STIERSTORFER | |||||||||||||||
37 | 34 | Guanylurea dinitramide | FOX-12 | C2H7N7O5 | 209.12 | 254.4 | 827 | -22.08 | 1.775 | 8591 | 316 | 5,067 | 3,471 | >30 | >360 | 215 | Praxichys | Oxalylhydrazinium Nitrate and Dinitrate - Efficiency Meets Performance. DENNIS FISCHER, THOMAS M. KLAPOTKE, AND JORG STIERSTORFER | |||||||||||||||
38 | 35 | Triaminotrinitrobenzene | TATB | C6H6N6O6 | 258.15 | 11.4 | 640 | -55.78 | 1.93 | 8335 | 312 | 4,625 | 3,297 | 50 | >360 | 350 | Praxichys | Oxalylhydrazinium Nitrate and Dinitrate - Efficiency Meets Performance. DENNIS FISCHER, THOMAS M. KLAPOTKE, AND JORG STIERSTORFER | |||||||||||||||
39 | 36 | 2-amino-5-nitrotriazole | ANTA | C2H3N5O2 | 129.08 | 188.8 | 736 | -43.38 | 1.819 | 8181 | 287 | 4,313 | 3273 | 35 | >360 | 241 | Praxichys | Oxalylhydrazinium Nitrate and Dinitrate - Efficiency Meets Performance. DENNIS FISCHER, THOMAS M. KLAPOTKE, AND JORG STIERSTORFER | |||||||||||||||
40 | 37 | Dinitroglycoluril | DINGU | C4H4N6O6 | 232.11 | -188.2 | 661 | -27.57 | 1.992 | 8364 | 331 | 4,206 | 3,306 | 18 | 250 | 225 | Praxichys | Oxalylhydrazinium Nitrate and Dinitrate - Efficiency Meets Performance. DENNIS FISCHER, THOMAS M. KLAPOTKE, AND JORG STIERSTORFER | |||||||||||||||
41 | 38 | 3,5-dinitro-2,6-pyrazinediamine 1-oxide | LLM-105 | C4H4N6O5 | 216.11 | 126.7 | 660 | -37.01 | 1.92 | 8482 | 333 | 4,935 | 3,676 | 18-30 | >360 | 342 | Praxichys | Oxalylhydrazinium Nitrate and Dinitrate - Efficiency Meets Performance. DENNIS FISCHER, THOMAS M. KLAPOTKE, AND JORG STIERSTORFER | |||||||||||||||
42 | 39 | Nitrotriazolone | NTO | C2H2N4O3 | 130.06 | -16.5 | 683 | -24.6 | 1.926 | 8167 | 301 | 3,967 | 3,237 | 71 | >360 | 270 | Praxichys | Oxalylhydrazinium Nitrate and Dinitrate - Efficiency Meets Performance. DENNIS FISCHER, THOMAS M. KLAPOTKE, AND JORG STIERSTORFER | |||||||||||||||
43 | 40 | 2,4-dinitroanisole | 2,4-DNI | C3H2N4O4 | 158.07 | 108 | 635 | -30.36 | 1.77 | 7938 | 279 | 5,183 | 4,021 | >25 | 140 | 270 | Praxichys | Oxalylhydrazinium Nitrate and Dinitrate - Efficiency Meets Performance. DENNIS FISCHER, THOMAS M. KLAPOTKE, AND JORG STIERSTORFER | |||||||||||||||
44 | 41 | Tetranitroglycoluryl | TNGU | C4H2N8O10 | 321.99 | 48.8 | 659 | 4.97 | 2 | 8779 | 378 | 5,482 | 4,474 | 25 | 194 | >200 | Praxichys | Oxalylhydrazinium Nitrate and Dinitrate - Efficiency Meets Performance. DENNIS FISCHER, THOMAS M. KLAPOTKE, AND JORG STIERSTORFER | |||||||||||||||
45 | 42 | Diammonium bis(2,2-dinitroethanide)nitroamine | BDNENA salt | C4H12N8O10 | 332.2 | 624.4 | 33.7 | -19.3 | 1.78 | 8982 | 364 | 94.2 | Praxichys | Super-high-energy materials based on bis(2,2-dinitroethyl)nitramine | |||||||||||||||||||
46 | 43 | Dihydrazinium bis(2,2-dinitroethanide)nitroamine | BDNENA salt | C4H14N10O10 | 362.2 | 770 | 38.7 | -22.1 | 1.79 | 9305 | 390 | 117.4 | Praxichys | Super-high-energy materials based on bis(2,2-dinitroethyl)nitramine | |||||||||||||||||||
47 | 44 | Bis(guanidinium) bis(2,2-dinitroethanide)nitroamine | BDNENA salt | C6H16N12O10 | 416.3 | 575.9 | 40 | -38.4 | 2.02 | 9587 | 428 | 141.3 | Praxichys | Super-high-energy materials based on bis(2,2-dinitroethyl)nitramine | |||||||||||||||||||
48 | 45 | Bis(diaminoguanidinium) bis(2,2-dinitroethanide)nitroamine | BDNENA salt | C6H20N16O10 | 476.3 | 769 | 47.1 | -40.3 | 1.88 | 9314 | 378 | 120.5 | Praxichys | Super-high-energy materials based on bis(2,2-dinitroethyl)nitramine | |||||||||||||||||||
49 | 46 | Bis(2,2,2-trinitroethanide)nitroamine | BTNENA | C4H4N8O14 | 388.1 | 28.9 | 16.5 | 1.97 | 8661 | 355 | 94.5 | Praxichys | Super-high-energy materials based on bis(2,2-dinitroethyl)nitramine | ||||||||||||||||||||
50 | 47 | 5,5’-azo-bis(1-oxidotetrazole) | C2H2N10O2 | 198.1 | 883.2 | 733 | 70.7 | -24.23 | 1.902 | 9548 | 424 | 6648 | 4973 | <1 | <5 | 0.01 | Praxichys | Synthesis of 5-Aminotetrazole-1N-oxide and Its Azo Derivative: A Key Step in the Development of New Energetic Materials | |||||||||||||||
51 | 48 | Hydrazinium nitroformate | HNF | CH5N5O6 | 183.1 | 38.2 | 13.1 | 1.86 | 8902 | 469 | Praxichys | Synthess, characterization, and thermal behavior of hydrazinium nitroformate (HNF) and its new n-alkyl substituted derivatives | |||||||||||||||||||||
52 | 49 | Monomethylhydrazinium nitroformate | MMHNF | C3H9N5O6 | 197 | 33.2 | -12.17 | 1.78 | 9134 | 372 | Praxichys | Synthess, characterization, and thermal behavior of hydrazinium nitroformate (HNF) and its new n-alkyl substituted derivatives | |||||||||||||||||||||
53 | 50 | 3-nitramino-4-nitrofurazan | NNF | C2HN5O5 | 175.1 | 40 | 1.95 | 9860 | 464 | Praxichys | Calculation of the Density and Detonation Properties of C, H, N, O and F Compounds: Use in the Design and Synthesis of New Energetic Materials | ||||||||||||||||||||||
54 | 51 | ammoium 3-nitramino-4-nitrofurazan | ANNF | C2H3N6O5 | 191.1 | 44 | 1.82 | 9880 | 465 | Praxichys | Calculation of the Density and Detonation Properties of C, H, N, O and F Compounds: Use in the Design and Synthesis of New Energetic Materials | ||||||||||||||||||||||
55 | 52 | hydroxylammonium 3-nitramino-4-nitrofurazan | HANNF | C2H4N6O6 | 208.1 | 40 | 1.89 | 10010 | 478 | Praxichys | Calculation of the Density and Detonation Properties of C, H, N, O and F Compounds: Use in the Design and Synthesis of New Energetic Materials | ||||||||||||||||||||||
56 | 53 | Bis(3-amino-4-nitrofurazanyl)methylenedinitramine ? | MBNNF | 1.92 | 9690 | 447 | Praxichys | Calculation of the Density and Detonation Properties of C, H, N, O and F Compounds: Use in the Design and Synthesis of New Energetic Materials | |||||||||||||||||||||||||
57 | 54 | 3-amino-4-nitrofurazan | ANF | C2H2N4O3 | 130.1 | 41 | 1.84 | 9310 | 412 | Praxichys | Calculation of the Density and Detonation Properties of C, H, N, O and F Compounds: Use in the Design and Synthesis of New Energetic Materials | ||||||||||||||||||||||
58 | 55 | Bis(3-amino-4-nitrofurazanyl)methylenediamine ? | MBANF | 1.8 | 8880 | 372 | Praxichys | Calculation of the Density and Detonation Properties of C, H, N, O and F Compounds: Use in the Design and Synthesis of New Energetic Materials | |||||||||||||||||||||||||
59 | 57 | 3-amino-3’-azido-4,4’-azoxyfurazan | AAAF | C4H2N10O3 | 238.2 | 58.8 | -40.3 | 1.74 | 9400 | 426 | Praxichys/Dornier | Glyoxime, Diaminofurazan and some Energetic Derivatives, by AXT | |||||||||||||||||||||
60 | 58 | Tetrazino-tetrazine-tetraoxide | TTTO (DTTO) | C2N8O4 | 200.1 | 858 | 672 | 56 | 0 | 1.9 | 9700 | 431 | 8,231 | Dornier/Dany | Computational Characterization of Two Di-1,2,3,4-tetrazine Tetraoxides, DTTO and iso-DTTO, as Potential Energetic Compounds | ||||||||||||||||||
61 | 59 | Pentaerythritol tetranitrate | PETN | C5H8N4O12 | 316.2 | -538.5 | 779 | 17.7 | -10.1 | 1.78 | 140 | 8481 | 1.76 | 8260 | 335 (1.77 g/cc) | 6,908 | 8.38<dc<19 mm | Dany/Praxichys | LLNL Explosives Handbook Properties of Chemical Explosives and Explosive Simulants; Characterization and Analysis of Tetranitrate Esters. Jimmie C. Oxley; James, L. Smith; Joseph E. Brady, IV; Austin C. Brown | ||||||||||||||
62 | 60 | Erythritol tetranitrate | ETN | C4H6N4O12 | 302.11 | 117.7 | 704 | 18.5 | 1.72 | 60 | 8206 | 1.72 | 193 | Praxichys | Characterization and Analysis of Tetranitrate Esters. Jimmie C. Oxley; James, L. Smith; Joseph E. Brady, IV; Austin C. Brown | ||||||||||||||||||
63 | 61 | Ethylene glycol dinitrate (nitroglycol) | EGDN | C2H4N2O6 | 152.1 | -227.84 | 737 | 18.4 | 0 | 1.48 | -22 | 1.492 | 7300 | 6743 | 620 | 217 | Praxichys | Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition; Characterization and Analysis of Tetranitrate Esters. Jimmie C. Oxley; James, L. Smith; Joseph E. Brady, IV; Austin C. Brown | |||||||||||||||
64 | 62 | Glycerol trinitrate | NG | C3H5N3O9 | 227.1 | -349.7 | 716 | 18.5 | 3.5 | 1.591 | 2.2 | 1.59 | 7600 | 6231 | 520 | 0.2 | >353 | Praxichys | Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition | ||||||||||||||
65 | 63 | Picric Acid | PA, TNP | C6H3N3O7 | 229.1 | -232.4 | 826 | 18.3 | -45.4 | 1.767 | 122.5 | 1.7 | 7350 | 995 | 4 | 315 | Secondary | 7.4 | >353 | 300 | Praxichys | Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition | |||||||||||
66 | 64 | Trinitroaniline (picramide) | TNA | C6H4N4O6 | 228.12 | -66.65 | 838 | 24.6 | -56.1 | 1.762 | 188 | 1.72 | 7300 | 3589 | 3.5 | 310 | Secondary | 15 | >353 | Praxichys | Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition | ||||||||||||
67 | 65 | Picramic acid (dinitroaminophenol) | C6H5N3O5 | 199.12 | -232.64 | 847 | 21.1 | -76.3 | 169 | 166 | Intermediate | 34 | >353 | 240 | Praxichys | Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition | |||||||||||||||||
68 | 66 | Diazodinitrophenol | DDNP | C6H2N4O5 | 210.1 | 207.77 | 26.7 | -60.9 | 1.63 | 1.5 | 6600 | Primary | 1.5 | Praxichys | Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition | ||||||||||||||||||
69 | 67 | Styphnic acid (trinitoresorcinol) | TNR | C6H3N3O8 | 245.1 | -505.7 | 814 | 17.15 | -35.9 | 1.83 | 176 | 2592 | 14 | 284 | Intermediate | 7.4 | >353 | 223 | Praxichys | Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition | |||||||||||||
70 | 68 | 2,4,6-trinitrophenylmethylnitramine | Tetryl | C7H5N5O8 | 287.1 | 42.4 | 861 | 24.39 | -47.4 | 1.73 | 129.5 | 1.71 | 7570 | 4773 | 6 | 410 | Secondary | 3 | >353 | 185 | Praxichys | Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition | |||||||||||
71 | 69 | 2,4,6-trinitrophenylnitraminoethyl nitrate | Pentryl | C8H6N6O11 | 362.2 | 23.19 | -35.4 | 1.75 | 128 | 450 | 4 | 235 | Praxichys | Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition | |||||||||||||||||||
72 | 70 | Bis(2,4,6-trinitrophenyl)aminoethyl nitrate | HNDPAN | ||||||||||||||||||||||||||||||
73 | 71 | Propylene glycol trinitrate | PGDN | ||||||||||||||||||||||||||||||
74 | 72 | Trinitromethane | Nitroform | CHN3O6 | 151 | 27.83 | 37.1 | 1.59 | 22 | Praxichys | Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition | ||||||||||||||||||||||
75 | 73 | Ethylene dinitramine | EDNA | C2H6N4O4 | 150.1 | 84.06 | tbc | 37.33 | -32 | 1.66-1.77 | 174 | 1.55 | 7883 | 29.8 (ref.2) | 5334 | tbc | 48 cm | 190 | 189 (5 seconds) | Dany | 1-Military Explosives, DEPARTMENT OF THE ARMY TECHNICAL MANUAL, TM 9-1300-214, 2- Computer simulation for prediction of performance and thermodynamic parameters of high energy materials, Journal of Hazardous Materials A112 (2004) 17–33 | ||||||||||||
76 | 74 | Heptanitrocubane | HNC | ||||||||||||||||||||||||||||||
77 | 75 | cis-syn-cis-2,6-Dioxo-1,3,4,5,7,8-hexanitrodecahydro-lH,5H-diimidazo[4,5-b:4',5'-e]pyrazine (HHTDD) | HHTDD | ||||||||||||||||||||||||||||||
78 | 76 | Methylene dinitramine | MEDINA | ||||||||||||||||||||||||||||||
79 | 77 | Methylene diisonitramine | MEDNA | ||||||||||||||||||||||||||||||
80 | 78 | Hydrazinium 5-aminotetrazolate | CH7N7 | 117.1 | 384 | 1339 | 83.7 | -75.1 | 1.54 | 125 | 8786 | 248 | 164 | Dornier | Azole-Based Energetic Salts, Haixiang Gao | ||||||||||||||||||
81 | 79 | 1,3,5-trinitrobenzene | TNB | C6H3N3O6 | 213.1 | -28.66 | 805 | 19.72 | -56.3 | 1.76 | 123.2 | 1.71 | 7300 | 325 | 7.4 | >353 | Praxichys | Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition | |||||||||||||||
82 | 80 | 1,3,5-triazido-2,4,6-trinitrobenzene | TATNB | ||||||||||||||||||||||||||||||
83 | 81 | Ammonium picrate | Dunnite | C6H6N4O7 | 246.1 | -365.5 | 909 | 22.77 | -52 | 1.72 | 280 decomp. | 1.6 | 7150 | > 19 | Praxichys | Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition | |||||||||||||||||
84 | 82 | Methyl nitrate | MN | CH3NO3 | 77 | -147.1 | 873 | 18.2 | -10.4 | 1.217 | boils 65 | 1.217 | 6300 | 6748 | 18 | 610 | 0.2 | >353 | Praxichys | Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition | |||||||||||||
85 | 83 | Mannitol hexanitrate | MHN | C6H8N6O18 | 452.2 | -636.2 | 694 | 18.59 | 7.1 | 112 | 1.73 | 8260 | 5855 | 510 | 0.8 | Praxichys | Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition | ||||||||||||||||
86 | 84 | Isosorbitol dinitrate | C6H8N2O8 | 236.1 | 11.87 | -54.2 | 1.08 | 5300 | 311 | 15 | 160 | 173 | Praxichys | Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition | |||||||||||||||||||
87 | 85 | Nitroguanidine | NQ | CH4N4O2 | 104.1 | -92.5 | tbc | 53.8 | -30.7 | 1.775 | 257 | 1.629 | 7980 | 256 | 1581 | Dany | 1-LLNL Explosives Handbook Properties of Chemical Explosives and Explosive Simulants, 2-C.L.MADER/Numerical Modeling of Explosive and propellants | ||||||||||||||||
88 | 86 | Urea nirate | UN | CH5N3O4 | 123.1 | -548 | 910 | 34.14 | -6.5 | 1.59 | 140 | 3211 | 270 | >49 | >353 | 186 | Praxichys | Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition | |||||||||||||||
89 | 87 | Ammonium nitrate | AN | ||||||||||||||||||||||||||||||
90 | 88 | Acetone peroxide (tricycloacetone peroxide, triacetone triperoxide) | AP, TATP, TCAP | C9H18O6 | 222.1 | 0 | -151.3 | 91 | 250 | 0.3 | 0.1 | Praxichys | Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition | ||||||||||||||||||||
91 | 89 | Methyl ethyl ketone peroxide | MEKP | ||||||||||||||||||||||||||||||
92 | 90 | Hexamethylene triperoxide diamine | HMTD | C6H12N2O6 | 208.1 | -334.6 | 1075 | 13.46 | -92.2 | 1.57 | 4500 | 3450 | 330 | 0.6 | 0.1 | 200 | 150 | Praxichys | Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition | ||||||||||||||
93 | 91 | 1,2,4-Butanetriol trinitrate | BTTN | ||||||||||||||||||||||||||||||
94 | 92 | 2,4,6-Triazido-1,3,5-triazine (cyanuric triazide) | |||||||||||||||||||||||||||||||
95 | 93 | Melamine nitroformate | MNF | ||||||||||||||||||||||||||||||
96 | 94 | Nitromethane | NM | CH3NO2 | 61 | -105.5 | 1059 | 22.96 | -39.3 | 1.1385 | -29 | 1.1385 | 6290 | 4466 | 400 | Praxichys | Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition | ||||||||||||||||
97 | 95 | Benzotrifuroxan | BTF | C6N6O6 | 252.1 | 606 | tbc | 33.3 | -38.1 | 1.901 | 198-200 | 1.86 | 8490 | 360 (1.859 g/cc) | 6,177 | 4059 | Dany | 1-LLNL Explosives Handbook Properties of Chemical Explosives and Explosive Simulants, 2-C.L.MADER/Numerical Modeling of Explosive and propellants | |||||||||||||||
98 | 96 | Tetranitromethane | TNM | CN4O8 | 196 | 53.3 | 685 | 28.59 | 49 | 1.6377 | 14 | 6360 | 159 | 2200 | 2800 | Praxichys/Dornier | Rudolf Meyer Josef Köhler Axel Homburg: Explosives Sixth, Completely Revised Edition | Numerical modeling of explosives and propellants, Third edition | |||||||||||||||
99 | 97 | Hexanitrobenzene | HNB | C6N6O12 | 348.1 | 18 | 597 | 24.1 | 0 | 1.973 | 9300 | 6834 | Dornier | Numerical modeling of explosives and propellants, Third edition | |||||||||||||||||||
100 | 98 | Bis(2,2,2-trinitroethyl) carbonate | BTNEC | C5H4N6O15 | 388 | 21.6 | 12.4 | 1.975 | Dornier | Klapötke Exceeding the oxygen content of liquid oxygen: bis(2,2,2-trinitroethyl) carbonate. |