The detonation pressure from the steady detonation of high explosives is a characteristic. Nevertheless, in materials processing using high explosives, there are cases when the detonation pressure does not match the intended pressure. In this investigation, as a new method of generating the overdriven detonation effectively, a double cylindrical high explosive set up using two kinds of explosives was developed, and its basic performance is analyzed. The concentric double cylindrical high explosive set up was composed of a high velocity explosive and a low velocity explosive, and the overdriven detonation was performed in the low velocity explosive. In this experiment, the ion gap was set up in the high velocity explosive and low velocity explosive respectively, and the detonation velocity was measured. The detonation pressure was also measured by setting up a manganin gauge (Kyowa Electric Instrument Co., Ltd.,) at the position where the generation of the overdriven detonation phenomenon was expected. Furthermore, the overdriven detonation process of the concentric double cylindrical high explosive was continually observed by numerical analysis and the framing photography. From the experimental results, the very high pressure region including the mach stem was observed in the low velocity explosive, and the overdriven detonation phenomenon was confirmed. The maximum pressure value of the concentric double cylindrical high explosive set up was 2.3 times higher than the Chapman-Jouguet pressure of the single explosive.

1.
Hokamoto
,
K.
,
Tanaka
,
S.
, and
Fujita
,
M.
,
2000
, “
Optimization of the Experimental Conditions for High-Temperature Shock Consolidation
,”
Int. J. Impact Eng.
,
24
, pp.
631
640
.
2.
Hokamoto
,
K.
,
Fujita
,
M.
,
Tanaka
,
S.
,
Kodama
,
T.
, and
Ujimoto
,
Y.
,
1998
, “
High-Temperature Shock Consolidation of Diamond Powders Using Converging Underwater Shock Wave
,”
Scr. Mater.
,
39
(
10
), pp.
1383
1388
.
3.
Iyama
,
H.
,
Kira
,
A.
,
Fujita
,
M.
,
Kubota
,
S.
,
Hokamoto
,
K.
, and
Itoh
,
S.
,
2001
, “
An Investigation on Underwater Explosive Bonding Process
,”
ASME J. Pressure Vessel Technol.
,
123
, pp.
486
492
.
4.
Itoh, S., Iyama, H., Katoh, Y., Murata, K., Raghukandan, K., Nagano, S., Muramoto, S., and Matsumura, R., 2002, “The Eccentric Spherical Free Metal Forming Using Underwater Shock Wave,” Proc. of the 2002 ASME Pressure Vessels and Piping Conf., PVP-Vol.446-2, pp. 163–170.
5.
Itoh
,
S.
,
Kubota
,
S.
,
Nagano
,
S.
, and
Fujita
,
M.
,
1998
, “
On Generation of Ultra-High Pressure by Converging of Underwater Shock Waves
,”
ASME J. Pressure Vessel Technol.
,
120
, pp.
51
55
.
6.
Liu, Z. Y., Nakamura, Y., Kubota, S., and Itoh, S., 2000, “Numerical Simulation on the Flight of Metal Plate Accelerated by Over-Drivien Detonation,” Proc. of the 2000 ASME Pressure Vessels and Piping Conf., PVP-Vol.414-2, pp. 87–92.
7.
Nakamura
,
A.
, and
Mashimo
,
T.
,
1993
, “
Calibration Experiments of a Thin Manganin Gauge for Shock-Wave Measurement in Solids: Measurements of Shock-Stress History in Almina
,”
Jpn. J. Appl. Phys., Part 1
,
32
(
10
), pp.
4785
4790
.
8.
Itoh
,
S.
,
Liu
,
Z.
, and
Nadamitu
,
Y.
,
1997
, “
An Investigation on the Properties of Underwater Shock Wave Generated in Underwater Explosive of High Explosive
,”
ASME J. Pressure Vessel Technol.
,
119
, pp.
498
502
.
9.
Itoh
,
S.
,
Kira
,
A.
,
Liu
,
Z.-Y.
, and
Nagano
,
S.
,
1999
, “
Deformation of Metal Pipe Due to Underwater Shock Wave
,”
ASME J. Pressure Vessel Technol.
,
121
, pp.
179
180
.
10.
Tanaka
,
K.
,
1976
, “
Shock Wave and Detonation Wave (1)
,”
Journal of the Japan Explosives Society
,
37
(
6
), pp.
222
232
.
11.
Mader, C. L., 1979, Numerical Modeling of Detonation, University of California Press, Berkeley.
12.
Tanaka, K., 1976, “Shock Wave and Detonation Wave (2),” Journal of the Japan Explosives Society, 37(6), pp. 277–290.
13.
Takahashi, K., Fujita, M., Kojima, M., Murata, K., Kato, Y., and Itoh, S., 1997, “On detonation Properties of the Emulsion Explosives,” Journal of the Japan Explosives Society, 58(5), pp. 196–201.
You do not currently have access to this content.