X-Ray Diffraction Patterns for Identification of Crystalline Constituents

May 1, 2002 - Shi Gang Liu , Dan Luo , Na Li , Wei Zhang , Jing Lei Lei , Nian Bing Li , and Hong Qun Luo. ACS Applied Materials & Interfaces 2016 8 (...
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X-Ray Diffraction Patterns for the Identification of Crystalline Constituents of Explosives ALBERT \1. SOLD-ITE

4ND

RICH 1RD 51. NOYES, California Institute of Technology, Pasadena, C a l q .

R

ents which could be separated easily from each other; however, the authors feel that the technique will frequently be valuable for the identification of simple mixtures. All the data were obtained from the forms of these compounds commonly occurring in the explosives under investigation and no attempt \vas made to study other polymorphic modfications.

E C E N T studies a t the California Institute of Technology have demonstrated that x-ray diffraction photographs are of considerable aid in the rapid identification of many of the crystalline constituents in explosives of unknoLvn composition. During the course of these studies photographs have been taken of powdered samples of several substances that are sometimes present in explosives, and the data have been used as aids in the identification of constituents in unknown samples. 3Iany of the results duplicated those that had already been reported in the literature, but no previous p o d c r diffraction data have been reported for eighteen of the substances that the authors have studied. The results of nieasurements on theseeighteensubstancesare presented in this article in a forni similar to that used by Hailalvalt and coworkers ( 1 ) for the presantation of x-ray powder data to be used for analytical purposes. Most of the explosives examined by this technique either contained only one crystalline constituent or else contained constitu-

EXPERIXIENTAL PROCEDURE

The samples m r r ground to a suit,ablestate of subdivision in an agate mortar. For most of the photographs the pulverized samples were mounted on Pyres fibers n i t h the aid of a little vaseline; samples of the more volatile substances were mounted in thinwalled Pyres capillaries. These procedures were found to be adequate for the quantitative identification of the substances concerned. Possible departures from complete randomness of orientation would doubtless cause some modifications in the relative intensities reported in the tables. X-ray photographs of the samples were made either in a cylindrical evacuated camera with a radius of 7.21 em. or in a cylindrical nonevacuated camera with a radius of 5.00 em. I n the latter instance the samples w r e rotated during exposure. All exposures were made with copper Iia: radiation Table 1. Names arid Formulas of Eighteen Crystalline Organic which wak filtered by nickel foil and collimated Constituents of Explosives by a system of two slits which were 0.014 inch in Pattern Tvidth. The photographs xere measured and the 10 Cheniical Saiiie Trade S a m e interplanar spacings were calculated by the usual I’entaerythritol tetrariitrnte PETS 1 methods. 2 3 4 5

t

2,4-Dinirrotoluene 2,4,6-Triiiiirotoluene Picric acid Guanidine picrate Ethylene dinitriiiniiie

DXT TXT

EDTA (haleite)

i

Xitroguanidine

8

2,?,j,5-TetramethyIol cyclopentanone tetraiiitrate

Fivonite

Dihydroxyethyl nitraiiiine dinitrate Hexogen (hexahydro-l,3,5-trinitro-a-triazine)

DISA

Octahydro-l,3,5,7-tetranitro-stetrazine

HMX

9 10

11

The names and formulas of the eighteen substances for which new data m r e obtained are presented in Table I. EXPERIMENTAL DATQ

The interplanar spacings calculated from the x-ray diffraction lines observed for each substance are presented in Table 11. The approximate intensity of each line relative to the other lines on the same film was estimated visually and is recorded in Table I1 by means of an appropriate designation:

Cycloni re,

RDX

vs s

m f vf

Very strong Strong Medium Faint Yery faint

,

ACKNOWLEDGMENT 12

Octahydro-l-acetyl-3,5,i-trinitro-Q D X , S E X s-tetrazine

CH? XOl-S

/’

‘\

4 L \

sot-s

S-COCHa ‘CH,

/

The authors wish to acknowledge their indebtedness to Henri A. Levy and Robert B. Corey, under whose direction this work was carried out, for their interest and advice.

K-XO2

\CHi 13

or,B-Diethylcarbanilide

LITERATURE CITED

Ethyl centralite (carbamite i

(1) Hanawalt, J. D., Rinn, H. W., and Yrevel, L.

K.. IND, ENG.CHEX.,A x . 4 ~ .ED.,10, 457-513 (1938).

14 15 16 17 18

Diphenylamine N-Nitrosodiphenylaniine 2-Kitrodiphenylamine 2,4‘-Dinitrodiphenylamlne 4,4’-Dinitrodiphenylawine

COXTRIBUTIOS from the Gates and Crellin Laboratories of Chemistry, California Institute of Technology, KO. 1053. This paper is based in whole or in pert o n work done for the Office of Scientific Research and Development under Contracts OERfsr-702 and OEMsr-881 with the California Institute of Technology.

442



JULY 1947

443

Table 11. Powder Diffraction Data for Eighteen Crystalline Organic Constituents of Explosives Spacing

Intensity

Spacing

kX

Intensity

k X

Pentaerythritol tetranitrate 6.64 m5.44 vf m4.67 3.83 YE 3.54 8 3.31 m 3.15 m 2.95 mm2.82

Spacing k .Y

Intensity

Spacing kX

Intensity

1.

2.70

2.

m-

m m

2.60 2.35 2.27 2.21 2.05 1.81 1.78 1.7Q 1 53

vf -

m m

f4f+

vf vi

2,4-Dinitrotoluene 9.88 6.54 5.96 5.54 4.98 4.71 4.41 4.15 3.98 3.84 3.67 3.57 3.32 3.22 2.98 2.77 2.17 2.06

+

7.84 7.04 6.79 6.10 5.54 4.87 4.58 4.31 4.03 3.92 3.79 3.69 3 41 3.37 3.27 3.11 3.02 2.80 2.75

a

vvf mm vi

f-

f+ m

f

mVS

vs

f f

vf vf

2,2,5,5-TetramethyIol cyclopentanone tetranitrate vf vf 2 67 2 61 f vf vi (broad) 2 54 vf (very broad) 2 46 2 34 m va 2 29 2 20 m-t 2 15 f+ f 2 10 f+ 2 02 vs 1 95 vf 1 91 f 1 85 f 1 80 in 1 75 m1 62 a1 56 f 1 08 f

+ +

3.

6.99 6.40 5.99 5.62 5.43 5 15 4.99 4 65 4.26 4.11 4.00 3.84 3.70 3.52 3 43 3 32 3 26 3.14

.

2,4,6-Trinitrotoluene 3.04 3.00 2.92 2.86 f 2.78 Y \.f 2.73 s2 67 f - (broad) 2.59 S 2.52 f2 43 vf 2 36 vva 2 30 2.22 rn ,doublet) 2.18 ni 2 13 n1 \Tf 2.04 111 1.94 vf 1.88

8.

e+ 8-

+

++

++

f m+

vf -

S 6 -

ni vvf m + (broad) 111

111

+

\-f -

?+

2 2 2 2 55 2 48 2 40 ..

+ v,-f 111

111

I+

3

v vf

rf

9. Dihydroxyethyl nitramine dinitrate 71 f+ m11 97 20 90 78 m+ vf 66 m 57 9 47 f 09 01 88 74 mm 64

7 6 4 4 3 3 3 3 3 3

-

ff vf m-

~

4. 9.53 5 47 4.78 4.60 4.46 4 . 17 4.06 3.86 3.73 3.55 3 48 3.40 3.32 11 ,3 00 2 8; 2.80 2 67 2 57 2 50 2 39 2 31 2.20 2 04 1 89

3

6. i 4 3 3 3 2 2 2 2 2 2 2 2 2 2 2 1 1 1 1 1

39 57 67 39 08 96 80 67 56 52 37 28 26 19 13 03 98 84 79 60 53

Picric acid f

+ f111

f+

vi

f+

5. Guanidine picrate 9 37 f 4.68 f + (broad) vvf 4 23 4.12 rf 3.69 vf 3.16 VVS 2.65 af 2.56 vf 2 36 vf (broad) 2.26 f 2 15 vf 2.03 vvf 1.97 vvf (broad) 1 ,.59 v r f (hroadj

S

m+ in Ill

f f f in in fin f (broad) f

+

vvf \Tf \-vi vrf

Ethylene dinitramine

m+ 3-

(broad)

+

\-f (broad) 111 111

f (broad)

v vf vf incompletely vi'('reao1ved)

vf f vvf vvf v vf

f ff

"I

vvf vf vf vf 10.

6 5 5 .5 4 4 4 4 3 3

3

rvf

5 Ill

I .

2 08 2 03 1 78 1 72

+

f

f-

2.33 ' 'I

7. Nitroguanidine 5 00 4 39 4.15 3.59 3 47 3 23 3.04 2 93 2 86 2.65 2.60 2.49 2.39 2.31 2.24 2.17 2.13 2.08 2.05 2.00 1.90 1.85 1.79 1.74 1.68 1.65 1.62 1 53 1.26

?

(broad)

Ill

+

f+

rvf

In 7

+

73 72 34 10

95 35 17 02 91 76 50 30 04 93 86 76

3 3 2 2 2 2 69 2 56 2 51 2 43 2 36 2 28 2 22 2 13

in I11 111

-

1-f

x-vf rf rf

vf

in

m fS

S

vf

-

vi

vf

vi (broad) vrf f vvf f f (very broad) 1-f (very broad)

6 04 5 52 4 85 431 4 05 3 86 3' 40 3 26 3 02 2 79 2 68 2 53 2 41 2 25 2 18 2 12 2 08 2 00 1 90 I 86

(Continued on page 444)

-

S VS

f

\-f S-

f m f mf+ vi (broad) vf (broad) f1I.

-

mfin -

vf

S

VS

(broad)

in -

+

x-f in -

f-

ff vf f-

vf f f f (broad)

f

vf

m

T-I+

(broad)

i

f vf

rf

vf vvf

vi

vrf Ti vvf v r f (broad) vf vi (broad) vvf vvf

Octahydro-1,3,5,7-tetranitro-s-tetrazine

m m f (broad)

vf f-

Hexogen 2.08 2.02 1.96 1 86 1.79 1.76 1.72 1.64 1.56 1.52 1.4e l.'di 1 12 1.39 1 35 1 32 1.30 1.27 1.25 1.21 1.18 1 15 1.12

80 70 66 61 57 54 52 46 42 39 34 30 26 20 17 16 10

+

08 06 01

vf vf

-

vi vf -

'

vi

vf vf vvf

+-

vi -

vf

-

vvi f (broad) fvvf fvvf vf vf rf

++

VOLUME

444

12. 6 9.i

S-

2.22 2.10 2.03 1 .98 1.92 1.84 1 8% 1.76

nl

1.72

111 111

1

fi 62

S i-

ii 08

vvf -

4.74 4 44 4 01 3.71 3 . J4 3.44 3.30 3.18 3.02 2.92 2.73 2.63 2.34 2.46 2.41 2.33 2.20

\.S I,,

+

Vb

f-

Ill

Ill

+

f f vi+ f f f f 4

f\-Tf

7 06

-

R . 10 4.62

f+

vi+ vf f f fff-

I .79 1 .33 1 48 1.44 1.41 1.38 1.35 1 31 1 28

?.20 .3 67 3 43 2.99 2 87 2.30 2.12 2 02 1 93

T-vf rf a\-f vf vvf +

..+ (t)roa(l) F+

f ibroadl ffvrf (hr,M