nr |
titel |
auteur |
tijdschrift |
jaar |
jaarg. |
afl. |
pagina('s) |
type |
1 |
Application of Synchrotron Radiation for Studying Detonation and ShockWave Processes
|
A. N. Aleshaev |
|
2001 |
37 |
5 |
p. 585-593 9 p. |
artikel |
2 |
Application of Synchrotron Radiation for Studying Detonation and Shock‐Wave Processes
|
Aleshaev, A. N. |
|
2001 |
37 |
5 |
p. 585-593 |
artikel |
3 |
Attenuation of Blast Overpressures from Liquid in an Elastic Shell
|
B. E. Gel'fand |
|
2001 |
37 |
5 |
p. 607-612 6 p. |
artikel |
4 |
Attenuation of Blast Overpressures from Liquid in an Elastic Shell
|
Gel'fand, B. E. |
|
2001 |
37 |
5 |
p. 607-612 |
artikel |
5 |
Combustion of SolidPropellant Charges with Highly Progressive Gas Release
|
A. M. Lipanov |
|
2001 |
37 |
5 |
p. 550-557 8 p. |
artikel |
6 |
Combustion of Solid‐Propellant Charges with Highly Progressive Gas Release
|
Lipanov, A. M. |
|
2001 |
37 |
5 |
p. 550-557 |
artikel |
7 |
Convective Regime of Filtration Combustion of Energetic Materials in a Cocurrent Flow of Their Combustion Products
|
L. K. Gusachenko |
|
2001 |
37 |
5 |
p. 540-549 10 p. |
artikel |
8 |
Convective Regime of Filtration Combustion of Energetic Materials in a Cocurrent Flow of Their Combustion Products
|
Gusachenko, L. K. |
|
2001 |
37 |
5 |
p. 540-549 |
artikel |
9 |
Critical Conditions of Chain Thermal Explosion
|
V. V. Azatyan |
|
2001 |
37 |
5 |
p. 501-511 11 p. |
artikel |
10 |
Critical Conditions of Chain Thermal Explosion
|
Azatyan, V. V. |
|
2001 |
37 |
5 |
p. 501-511 |
artikel |
11 |
Dependence of the Longitudinal Velocity of Sound in Constructional Ceramic Materials on Pressure and Damage Rate
|
V. A. Skripnyak |
|
2001 |
37 |
5 |
p. 600-606 7 p. |
artikel |
12 |
Dependence of the Longitudinal Velocity of Sound in Constructional Ceramic Materials on Pressure and Damage Rate
|
Skripnyak, V. A. |
|
2001 |
37 |
5 |
p. 600-606 |
artikel |
13 |
Detonation and Physicochemical Properties of Cannon Powders
|
I. V. Zanegin |
|
2001 |
37 |
5 |
p. 563-566 4 p. |
artikel |
14 |
Detonation and Physicochemical Properties of Cannon Powders
|
Zanegin, I. V. |
|
2001 |
37 |
5 |
p. 563-566 |
artikel |
15 |
Explosive Synthesis of Ultradisperse Aluminum Oxide in an OxygenContaining Medium
|
A. A. Bukaemskii |
|
2001 |
37 |
5 |
p. 594-599 6 p. |
artikel |
16 |
Explosive Synthesis of Ultradisperse Aluminum Oxide in an Oxygen‐Containing Medium
|
Bukaemskii, A. A. |
|
2001 |
37 |
5 |
p. 594-599 |
artikel |
17 |
Extinction of Combustible Forest Materials by Constant and Varying Actions of an Inert Gas Flow in the Combustion Zone
|
A. M. Grishin |
|
2001 |
37 |
5 |
p. 558-562 5 p. |
artikel |
18 |
Extinction of Combustible Forest Materials by Constant and Varying Actions of an Inert Gas Flow in the Combustion Zone
|
Grishin, A. M. |
|
2001 |
37 |
5 |
p. 558-562 |
artikel |
19 |
Flammability of VaporGas Mixtures C2F4, SO3, and C2F4OSO2
|
Ya. A. Lisochkin |
|
2001 |
37 |
5 |
p. 512-515 4 p. |
artikel |
20 |
Flammability of Vapor–Gas Mixtures C2F4, SO3, and C2F4OSO2
|
Lisochkin, Ya. A. |
|
2001 |
37 |
5 |
p. 512-515 |
artikel |
21 |
Heat Transfer of Submicron MgO Particles in the Combustion Zone of Single Magnesium Particles
|
I. A. Florko |
|
2001 |
37 |
5 |
p. 535-539 5 p. |
artikel |
22 |
Heat Transfer of Submicron MgO Particles in the Combustion Zone of Single Magnesium Particles
|
Florko, I. A. |
|
2001 |
37 |
5 |
p. 535-539 |
artikel |
23 |
Initiation of a Porous Explosive by Overdriven Gas Detonation Products
|
V. V. Grigor'ev |
|
2001 |
37 |
5 |
p. 572-579 8 p. |
artikel |
24 |
Initiation of a Porous Explosive by Overdriven Gas Detonation Products
|
Grigor'ev, V. V. |
|
2001 |
37 |
5 |
p. 572-579 |
artikel |
25 |
Mechanism of Formation of a Fast Gas Jet
|
Yu. V. Bat'kov |
|
2001 |
37 |
5 |
p. 580-584 5 p. |
artikel |
26 |
Mechanism of Formation of a Fast Gas Jet
|
Bat'kov, Yu. V. |
|
2001 |
37 |
5 |
p. 580-584 |
artikel |
27 |
Parametric Analysis of the Simplest Model of the Theory of Thermal Explosionthe Zel'dovichSemenov Model
|
V. I. Bykov |
|
2001 |
37 |
5 |
p. 523-534 12 p. |
artikel |
28 |
Parametric Analysis of the Simplest Model of the Theory of Thermal Explosion—the Zel'dovich—Semenov Model
|
Bykov, V. I. |
|
2001 |
37 |
5 |
p. 523-534 |
artikel |
29 |
ShockWave Initiation of Detonation of DoubleBase Propellants
|
A. N. Afanasenkov |
|
2001 |
37 |
5 |
p. 567-571 5 p. |
artikel |
30 |
Shock‐Wave Initiation of Detonation of Double‐Base Propellants
|
Afanasenkov, A. N. |
|
2001 |
37 |
5 |
p. 567-571 |
artikel |
31 |
Stabilization of the Flame of a Powdered Metal Combustible in a Turbulent Air Flow
|
A. G. Egorov |
|
2001 |
37 |
5 |
p. 516-522 7 p. |
artikel |
32 |
Stabilization of the Flame of a Powdered Metal Combustible in a Turbulent Air Flow
|
Egorov, A. G. |
|
2001 |
37 |
5 |
p. 516-522 |
artikel |
33 |
The Effect of Rigid Boundaries on the Directionality of an Excavating Explosion
|
K. V. Alfer'ev |
|
2001 |
37 |
5 |
p. 613-615 3 p. |
artikel |
34 |
The Effect of Rigid Boundaries on the Directionality of an Excavating Explosion
|
Alfer'ev, K. V. |
|
2001 |
37 |
5 |
p. 613-615 |
artikel |
35 |
Thermal Interaction of Two Flame Fronts Propagating in Channels with Opposing Gas Flows
|
R. V. Fursenko |
|
2001 |
37 |
5 |
p. 493-500 8 p. |
artikel |
36 |
Thermal Interaction of Two Flame Fronts Propagating in Channels with Opposing Gas Flows
|
Fursenko, R. V. |
|
2001 |
37 |
5 |
p. 493-500 |
artikel |