void setupInitialConditions()
{
relVelocity_ = 1e-1;
setSystemDimensions(3);
setParticleDimensions(3);
setGravity(Vec3D(0,0,0));
setTimeStep(5e-6 / 2.0);
Mdouble R = 1e-3;
setXMax( 2*R);
setYMax( R);
setZMax( R);
setXMin(-2*R);
setYMin(-R);
setZMin(-R);
species->setDensity(2000.0);
species->setLoadingStiffness(1e2);
species->setUnloadingStiffnessMax(1.5* species->getLoadingStiffness());
species->setCohesionStiffness(species->getLoadingStiffness());
species->setPenetrationDepthMax(0.05);
species->setAdhesionStiffness(1e2);
species->setAdhesionForceMax(1e-5*species->getAdhesionStiffness());
species->setSlidingStiffness(1.2e1);
species->setSlidingFrictionCoefficient(0.01);
particleHandler.clear();
BaseParticle P;
P.setRadius(R);
P.setPosition(Vec3D(-R-species->getInteractionDistance()/3,0,0));
P.setVelocity(Vec3D(relVelocity_/2,0,0));
particleHandler.copyAndAddObject(P);
P.setPosition(Vec3D(R+species->getInteractionDistance()/3,0,0));
P.setVelocity(Vec3D(-relVelocity_/2,0,0));
particleHandler.copyAndAddObject(P);
setName("AdhesiveForceUnitTest_ParticleParticleInteractionWithPlasticForces");
setTimeMax(getTimeStep()*250*5);
setFileType(FileType::ONE_FILE);
setSaveCount(1);
}
