tAdd Dougal/Luke experiment script - sphere - GPU-based 3D discrete element met… | |
git clone git://src.adamsgaard.dk/sphere | |
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--- | |
commit 924e5cc96c8508c17abff1b91dfc96baf9a21e0e | |
parent 670fa039eb42c42ec33f71e61da7ebab328056b5 | |
Author: Anders Damsgaard <[email protected]> | |
Date: Wed, 4 Dec 2019 09:36:26 +0100 | |
Add Dougal/Luke experiment script | |
Diffstat: | |
A python/hansen-zoet.py | 152 +++++++++++++++++++++++++++++… | |
1 file changed, 152 insertions(+), 0 deletions(-) | |
--- | |
diff --git a/python/hansen-zoet.py b/python/hansen-zoet.py | |
t@@ -0,0 +1,152 @@ | |
+#!/usr/bin/env python | |
+ | |
+# Import sphere functionality | |
+import sphere | |
+ | |
+### EXPERIMENT SETUP ### | |
+initialization = False | |
+consolidation = True | |
+shearing = True | |
+rendering = False | |
+plots = True | |
+ | |
+# Number of particles | |
+np = 1e4 | |
+ | |
+# Common simulation id | |
+sim_id = "hz" | |
+ | |
+# Deviatoric stress [Pa] | |
+Nlist = [51e3, 101e3, 202e3, 303e3, 404e3] | |
+ | |
+### INITIALIZATION ### | |
+ | |
+# New class | |
+init = sphere.sim(np = np, nd = 3, nw = 0, sid = sim_id + "-init") | |
+ | |
+# Save radii | |
+init.generateRadii(mean = 800e-5) | |
+ | |
+# Use default params | |
+init.defaultParams(gamma_n = 100.0, mu_s = 0.6, mu_d = 0.6) | |
+ | |
+# Add gravity | |
+init.g[2] = -9.81 | |
+ | |
+# Periodic x and y boundaries | |
+init.periodicBoundariesXY() | |
+ | |
+# Initialize positions in random grid (also sets world size) | |
+hcells = np**(1.0/3.0) | |
+init.initRandomGridPos(gridnum = [hcells, hcells, 1e9]) | |
+ | |
+# Set duration of simulation | |
+init.initTemporal(total = 5.0) | |
+ | |
+if (initialization == True): | |
+ | |
+ # Run sphere | |
+ init.run(dry = True) | |
+ init.run() | |
+ | |
+ if (plots == True): | |
+ # Make a graph of energies | |
+ init.visualize('energy') | |
+ | |
+ init.writeVTKall() | |
+ | |
+ if (rendering == True): | |
+ # Render images with raytracer | |
+ init.render(method = "angvel", max_val = 0.3, verbose = False) | |
+ | |
+ | |
+ | |
+# For each normal stress, consolidate and subsequently shear the material | |
+for N in Nlist: | |
+ | |
+ ### CONSOLIDATION ### | |
+ | |
+ # New class | |
+ cons = sphere.sim(np = init.np, nw = 1, sid = sim_id + | |
+ "-cons-N{}".format(N)) | |
+ | |
+ # Read last output file of initialization step | |
+ lastf = sphere.status(sim_id + "-init") | |
+ cons.readbin("../output/" + sim_id + "-init.output{:0=5}.bin".format(lastf… | |
+ | |
+ # Periodic x and y boundaries | |
+ cons.periodicBoundariesXY() | |
+ | |
+ # Setup consolidation experiment | |
+ cons.consolidate(normal_stress = N) | |
+ cons.adaptiveGrid() | |
+ | |
+ # Set duration of simulation | |
+ cons.initTemporal(total = 1.5) | |
+ | |
+ """ | |
+ cons.w_m[0] *= 0.001 | |
+ cons.mu_s[0] = 0.0 | |
+ cons.mu_d[0] = 0.0 | |
+ cons.gamma_wn[0] = 1e4 | |
+ cons.gamma_wt[0] = 1e4 | |
+ cons.contactmodel[0] = 1 | |
+ """ | |
+ | |
+ if (consolidation == True): | |
+ | |
+ # Run sphere | |
+ cons.run(dry = True) # show values, don't run | |
+ cons.run() # run | |
+ | |
+ if (plots == True): | |
+ # Make a graph of energies | |
+ cons.visualize('energy') | |
+ cons.visualize('walls') | |
+ | |
+ cons.writeVTKall() | |
+ | |
+ if (rendering == True): | |
+ # Render images with raytracer | |
+ cons.render(method = "pres", max_val = 2.0*N, verbose = False) | |
+ | |
+ | |
+ ### SHEARING ### | |
+ | |
+ # New class | |
+ shear = sphere.sim(np = cons.np, nw = cons.nw, sid = sim_id + | |
+ "-shear-N{}".format(N)) | |
+ | |
+ # Read last output file of initialization step | |
+ lastf = sphere.status(sim_id + "-cons-N{}".format(N)) | |
+ shear.readbin("../output/" + sim_id + | |
+ "-cons-N{}.output{:0=5}.bin".format(N, lastf), | |
+ verbose = False) | |
+ | |
+ # Periodic x and y boundaries | |
+ shear.periodicBoundariesXY() | |
+ | |
+ # Setup shear experiment | |
+ shear.shear(shear_strain_rate = 0.05, periodic = init.periodic) | |
+ shear.adaptiveGrid() | |
+ #shear.initFluid(mu=17.87e-4, p=0.0, hydrostatic=True, cfd_solver=1) | |
+ | |
+ # Set duration of simulation | |
+ shear.initTemporal(total = 20.0) | |
+ | |
+ if (shearing == True): | |
+ | |
+ # Run sphere | |
+ shear.run(dry = True) | |
+ shear.run() | |
+ | |
+ if (plots == True): | |
+ # Make a graph of energies | |
+ shear.visualize('energy') | |
+ shear.visualize('shear') | |
+ | |
+ shear.writeVTKall() | |
+ | |
+ if (rendering == True): | |
+ # Render images with raytracer | |
+ shear.render(method = "pres", max_val = 2.0*N, verbose = False) |