Implementation of low-storage Runge-Kutta time integration schemes in scalable asynchronous partial differential equation solvers

“…The material model parameters are shown in Table 3 [2], where ρ represents the material density; E is elastic modulus; V is the Poisson's ratio; σ 0 is the yield limit; FS is the maximum effective plastic strain. 4) and ( 5), the velocity of bullet can be obtained with the fourth order Runge Kutta method [8] and cubic Spline interpolation [9] at different distances. After calculation, the velocities at distances of 50m, 100m, 150m, 200m and 250m are 729m/s, 664m/s, 604 m/s, 549 m/s and 499 m/s, respectively.…”

Research on Simulation Model of Unexploded Ordnance Destruction Based on Sniping Method

“…The material model parameters are shown in Table 3 [2], where ρ represents the material density; E is elastic modulus; V is the Poisson's ratio; σ 0 is the yield limit; FS is the maximum effective plastic strain. 4) and ( 5), the velocity of bullet can be obtained with the fourth order Runge Kutta method [8] and cubic Spline interpolation [9] at different distances. After calculation, the velocities at distances of 50m, 100m, 150m, 200m and 250m are 729m/s, 664m/s, 604 m/s, 549 m/s and 499 m/s, respectively.…”

Research on Simulation Model of Unexploded Ordnance Destruction Based on Sniping Method

An asynchronous discontinuous Galerkin method for massively parallel PDE solvers