236 
sec. Lil -25- 
Table i1-1. Covolume Constant vs. Density of Loading for PRIN. 
C5 D/D; x? fuer K/2,¢/" Dev.) Observer 
»50 1.655 7h 6S +2.0 Friedrich 
65 1,340 95 462 +e , 
30 2.050 en 452 ade r 
1.00 2.300 1.425 450 -2.0 wu 
1.20 2.554 E77 466 41.5 i 
1.40 2.97 2.09 472 42,0 u 
1.60 DcoiOD, 2.385 471 +2.6 7 
“79 2.015 i613} 476 43.7 Roth 
91 2.218 LAS, 467 +1.7 iu 
1.04 2.397 Ibe} 465 +1.3 * 
1.45 3.085 2.19 477 +39 ‘ 
1.72 3.369 2 dy YG -2,4 n 
50 1.664 515) kh +3 3 Cairns 
Soul 1,622 705 457 -1 8 : 
5p) 1.664 ONS yh -2.6 " 
70 1.035 gh5 4ov -7.0 x 
.80 1.995 iL all 439 -4y he 0 
81 2.020 a5 5 Ay -3..5 : 
91 2,220 ie) 469 22 u 
92 2.238 1.365 469 42.2 e 
1.00 exail 1.44 455 - 9 y 
LG ORDDS5 WGTS ho -2,2 - 
Table 11-2, Covolume Constants for Various Explosives. 
Substance Ty /rpt!* Kobs Kealc. % dev. 
PETN 4930 459 3246 3879 +0.9 
Cyclonite 4650 319 2655 2622 =D 
Tetryl 3950 418 3313 3330 + .5 
Picric Acié 3440 345 26638 25643 me 
DiPLTN 4.6350 675 5569 5350 +5.2 
Nitroglycerin 5230 pyin 2930 2805 -l. 3 
Nitropentanone 3350 597 yohy 4553 + .3 
Nitropentanol 5970 627 4978 5115 42.5 
Nitrohexanone 2880 S71(G48) = '915(4-749) 4-756 - .2(-3.6) 
Nitrohexanol 3515 739 569) 5298 -6.9 
TNB 5550 29k 2272 2451 +729 
Nitroglycol 5300 233 1989 1896 -..6 
31%PETN etc. 4050 = 7517 12107 12523 +34 
