Technical Physics
ISSN 1063-7842 (Print)
ISSN 1090-6525 (Online)
Menu
Archives
Home
About the Journal
Editorial Team
Editorial Policies
Author Guidelines
About the Journal
Issues
Search
Current
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
Barrier Discharge
Circular Polarization
Coherent Scattering Region
Differential Scanning Calorimetry
Electric Discharge
Electric Field Strength
Electron Diffraction Pattern
Excited Mode
External Electric Field
Ferrite
Inelastic Energy Loss
Ionization Cross Section
Magnetron Discharge
Martensite
Percolation Threshold
Plasma Channel
Spend Nuclear Fuel
Surface Relief
Technical Physic
Thermal Conductivity
Transmission Coefficient
Information
For Readers
For Authors
For Librarians
×
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
Barrier Discharge
Circular Polarization
Coherent Scattering Region
Differential Scanning Calorimetry
Electric Discharge
Electric Field Strength
Electron Diffraction Pattern
Excited Mode
External Electric Field
Ferrite
Inelastic Energy Loss
Ionization Cross Section
Magnetron Discharge
Martensite
Percolation Threshold
Plasma Channel
Spend Nuclear Fuel
Surface Relief
Technical Physic
Thermal Conductivity
Transmission Coefficient
Information
For Readers
For Authors
For Librarians
Home
>
Search
>
Author Details
Author Details
Kanel, G. I.
Issue
Section
Title
File
Vol 61, No 3 (2016)
Solid State
Dissipative processes under the shock compression of glass
Vol 61, No 8 (2016)
Solid State
Temperature–rate dependences of the flow stress and the resistance to fracture of a VT6 titanium alloy under shock loading at a temperature of 20 and 600°C
Vol 64, No 5 (2019)
Physical Science of Materials
Influence of High-Temperature Annealing on the Resistance to High Strain Rate and Fracture of Tantalum at Temperatures of 20 and 500°C
This website uses cookies
You consent to our cookies if you continue to use our website.
About Cookies
TOP