Add to ORKGA numerical scheme using the method of characteristics to calculate the flow properties and pressures behind decaying shock waves for materials under hypervelocity impact is developed. Time-consuming double interpolation subroutines are replaced by a technique based on orthogonal polynomial least square surface fits. Typical calculated results are given and compared with the double interpolation results. The complete computer program is included
Dynamic response of inhomogeneous materials exhibits new effects, which often do not exist in homoge...
Shock wave pressure decay in polycarbonate targets impacted by hypervelocity cylindrical projectil
Finite difference methods and two dimensional Lagrangian code for determining wave propagation in el...
Initial hydrodynamic phase of hypervelocity impact analyzed by computer program using eigenvector ap...
AbstractWe describe the application of the ReaxFF reactive force field with short-range distance-dep...
We describe the application of the ReaxFF reactive force field with short-range distance-dependent e...
Pressure measurements for shock waves generated by hypervelocity impacts of aluminum spheres into al...
Series solution to describe hydrodynamic phase flow field during hypervelocity impact of compressibl...
AbstractIn this paper we develop methods based primarily on the work of Kuropatenko and Wilkins to i...
Computational Fluid Dynamics (CFD) numerical simulations of low-density shock-wave interactions for ...
Hypervelocity impacts (HVIs) are collisions at velocities greater than the target object’s speed of ...
Understanding high pressure behavior of homogeneous as well as heterogeneous materials is necessary ...
Application of the method of characteristics to the linearized three-dimensional equation results in...
The hypothesis of this research is that exponential interpolation functions will approximate fluid p...
New forms of empirical formulae that provide an approximate description of the decay of shock pressu...
Dynamic response of inhomogeneous materials exhibits new effects, which often do not exist in homoge...
Shock wave pressure decay in polycarbonate targets impacted by hypervelocity cylindrical projectil
Finite difference methods and two dimensional Lagrangian code for determining wave propagation in el...
Initial hydrodynamic phase of hypervelocity impact analyzed by computer program using eigenvector ap...
AbstractWe describe the application of the ReaxFF reactive force field with short-range distance-dep...
We describe the application of the ReaxFF reactive force field with short-range distance-dependent e...
Pressure measurements for shock waves generated by hypervelocity impacts of aluminum spheres into al...
Series solution to describe hydrodynamic phase flow field during hypervelocity impact of compressibl...
AbstractIn this paper we develop methods based primarily on the work of Kuropatenko and Wilkins to i...
Computational Fluid Dynamics (CFD) numerical simulations of low-density shock-wave interactions for ...
Hypervelocity impacts (HVIs) are collisions at velocities greater than the target object’s speed of ...
Understanding high pressure behavior of homogeneous as well as heterogeneous materials is necessary ...
Application of the method of characteristics to the linearized three-dimensional equation results in...
The hypothesis of this research is that exponential interpolation functions will approximate fluid p...
New forms of empirical formulae that provide an approximate description of the decay of shock pressu...
Dynamic response of inhomogeneous materials exhibits new effects, which often do not exist in homoge...
Shock wave pressure decay in polycarbonate targets impacted by hypervelocity cylindrical projectil
Finite difference methods and two dimensional Lagrangian code for determining wave propagation in el...