Combustion, Explosion, and Shock Waves
ISSN 0010-5082 (Print)
ISSN 1573-8345 (Online)
Menu
Archives
Home
About the Journal
Editorial Team
Editorial Policies
Author Guidelines
About the Journal
Issues
Search
Current
Retracted articles
Archives
Contact
All Journals
User
Username
Password
Remember me
Forgot password?
Register
Notifications
View
Subscribe
Search
Search
Search Scope
All
Authors
Title
Abstract
Index terms
Full Text
Browse
By Issue
By Author
By Title
By Sections
Other Journals
Subscription
Login to verify subscription
Keywords
PETN
aluminum
burning rate
combustion
continuous spin detonation
detonation
enthalpy of formation
equation of state
explosion
high pressure
hydrogen
ignition
laser initiation
mathematical modeling
mechanical activation
methane
numerical simulation
self-propagating high-temperature synthesis
shock wave
thermal decomposition
thermal explosion
×
User
Username
Password
Remember me
Forgot password?
Register
Notifications
View
Subscribe
Search
Search
Search Scope
All
Authors
Title
Abstract
Index terms
Full Text
Browse
By Issue
By Author
By Title
By Sections
Other Journals
Subscription
Login to verify subscription
Keywords
PETN
aluminum
burning rate
combustion
continuous spin detonation
detonation
enthalpy of formation
equation of state
explosion
high pressure
hydrogen
ignition
laser initiation
mathematical modeling
mechanical activation
methane
numerical simulation
self-propagating high-temperature synthesis
shock wave
thermal decomposition
thermal explosion
Home
>
Search
>
Author Details
Author Details
Voronetskii, A. V.
Issue
Section
Title
File
Vol 52, No 3 (2016)
Article
Ignition and combustion of pyrotechnic compositions based on micro- and nanoparticles of aluminum diboride in air flow in a two-zone combustion chamber
Vol 53, No 3 (2017)
Article
Experimental study of the combustion efficiency of two-phase gasification products of energetic boron-containing condensed compositions in a high-enthalpy airflow
Vol 53, No 4 (2017)
Article
Numerical and experimental study of ignition of a two-phase fuel composition (ethanol + air) in a resonance gas-dynamic system
TOP
