Bobolev et al., 1966 - Google Patents
Stability of normal burning of porous systems at constant pressureBobolev et al., 1966
- Document ID
- 4774883303496902344
- Author
- Bobolev V
- Margolin A
- Chuiko S
- Publication year
- Publication venue
- Combustion, Explosion and Shock Waves
External Links
Snippet
Our investigations show that the previously established condition of stability of normal burning ϕ*=(ρU)* d= 7.5±4 mg/cm· sec, which has already been verified for homogeneous compositions, likewise gives a quantitative description of the limits of normal burning of …
- 239000000203 mixture 0 abstract description 54
Classifications
-
- C—CHEMISTRY; METALLURGY
- C06—EXPLOSIVES; MATCHES
- C06B—EXPLOSIVES OR THERMIC COMPOSITIONS; MANUFACTURE THEREOF; USE OF SINGLE SUBSTANCES AS EXPLOSIVES
- C06B31/00—Compositions containing an inorganic nitrogen-oxygen salt
- C06B31/28—Compositions containing an inorganic nitrogen-oxygen salt the salt being ammonium nitrate
- C06B31/30—Compositions containing an inorganic nitrogen-oxygen salt the salt being ammonium nitrate with vegetable matter; with resin; with rubber
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Dorsett | Laboratory equipment and test procedures for evaluating explosibility of dusts | |
| Smoot et al. | Propagation of laminar pulverized coal-air flames | |
| Nachmoni et al. | Combustion characteristics of gel fuels | |
| McDonald et al. | Humidity induced burning rate degradation of an iron oxide catalyzed ammonium perchlorate/HTPB composite propellant | |
| Bobolev et al. | Stability of normal burning of porous systems at constant pressure | |
| Xue et al. | Air explosion characteristics of a novel TiH2/RDX composite explosive | |
| Godai | Flame propagation into the crack of solid-propellant grain | |
| Kuwahara et al. | Role of boron in burning rate augmentation of AP composite propellants | |
| Woskoboenko | Explosibility of Victorian brown coal dust | |
| Borisov et al. | Effect of inert solid particles on detonation of a combustible gas mixture | |
| Clausen et al. | Effects of additives on the microexplosion of carbon slurry droplets | |
| Essenhigh et al. | Speed of flame in slowly moving clouds of cork dust | |
| Marshakov et al. | HMX Combustion Mechanism | |
| Bradley Jr et al. | Convective burning in propellant defects: A literature review | |
| US3110638A (en) | Controlled sensitivity igniter composition and method of producing same | |
| Khrapovskii et al. | The Effect of Aluminum in Its Mixtures With Ammonium Nitrate on the Ignition of Burning and Its Transition to the Convective Burning Regime | |
| Cohen-Nir | Combustion characteristics of advanced nitramine-based propellants | |
| Wall et al. | The temperature, burning rates and char character of pulverised coal particles prepared from maceral concentrates | |
| Addai et al. | Experimental and theoretical investigation of the lower explosion limit of multiphase hybrid mixtures | |
| HACKMAN III et al. | Combustion characteristics of crystalline oxidizers. | |
| Price et al. | Effect of initial particle size on the DDT of pressed solid explosives | |
| Weatherford Jr et al. | Research on fire-resistant diesel fuel flammability mitigation mechanisms | |
| US5122298A (en) | Dispersible smoke/obscurant forming compositions | |
| Varma et al. | Ignition and combustion studies of heterogeneous UDMH-RFNA gel propellants | |
| Hertzberg | Autoignition temperatures for coal particles dispersed in air |