Add to ORKGWe describe the application of the ReaxFF reactive force field with short-range distance-dependent exponential inner wall corrections and the non-adiabatic electron Force Field (eFF) for studying the hypervelocity impact (HVI) effects on material properties. In particular, to understanding nonequilibrium energy/mass transfer, high strain/heat rate material decomposition, defects formation, plastic flow, phase transitions, and electronic excitation effects that arise from HVI impact of soft and hard materials on different material surfaces. Novel results are presented on the single shock Hugoniot and shock chemistry of Nylon6-6, on the hypervelocity shock sensitivity of energetic materials with planar interfacial defects and on HVI chemistry...
A series of hypervelocity damage experiments were preformed on spacecraft materials. These experimen...
Computational materials science has provided great insight into the response of materials under extr...
Extreme conditions of pressure, shear, and temp. can dramatically modify the structures and properti...
We describe the application of the ReaxFF reactive force field with short-range distance-dependent e...
AbstractWe describe the application of the ReaxFF reactive force field with short-range distance-dep...
There is a need to determine the equations of state of materials in regimes of extreme high pressure...
UnrestrictedThis dissertation focuses on molecular dynamics (MD) simulations of shock sensitivity of...
The fundamental processes in shock-induced instabilities of materials remain obscure, particularly f...
We use the recently developed reactive force field ReaxFF with molecular dynamics (MD) to study the ...
Molecular dynamics simulations are used to study hypervelocity impacts of an ultrathin flyer plate w...
Electron force field (eFF) wave-packet molecular-dynamics simulations of the single shock Hugoniot a...
High explosives represent a class of materials known as energetic materials, in which providing an e...
The lifetime and properties of materials operating under extreme conditions are determined by comple...
There is a need to determine the equations of state of materials in regimes of extreme high pressure...
An understanding of the atomic-scale features of chemical and physical processes taking place behind...
A series of hypervelocity damage experiments were preformed on spacecraft materials. These experimen...
Computational materials science has provided great insight into the response of materials under extr...
Extreme conditions of pressure, shear, and temp. can dramatically modify the structures and properti...
We describe the application of the ReaxFF reactive force field with short-range distance-dependent e...
AbstractWe describe the application of the ReaxFF reactive force field with short-range distance-dep...
There is a need to determine the equations of state of materials in regimes of extreme high pressure...
UnrestrictedThis dissertation focuses on molecular dynamics (MD) simulations of shock sensitivity of...
The fundamental processes in shock-induced instabilities of materials remain obscure, particularly f...
We use the recently developed reactive force field ReaxFF with molecular dynamics (MD) to study the ...
Molecular dynamics simulations are used to study hypervelocity impacts of an ultrathin flyer plate w...
Electron force field (eFF) wave-packet molecular-dynamics simulations of the single shock Hugoniot a...
High explosives represent a class of materials known as energetic materials, in which providing an e...
The lifetime and properties of materials operating under extreme conditions are determined by comple...
There is a need to determine the equations of state of materials in regimes of extreme high pressure...
An understanding of the atomic-scale features of chemical and physical processes taking place behind...
A series of hypervelocity damage experiments were preformed on spacecraft materials. These experimen...
Computational materials science has provided great insight into the response of materials under extr...
Extreme conditions of pressure, shear, and temp. can dramatically modify the structures and properti...