Integrating Rotational Degree Of Freedom in EDEM

Материал из Department of Theoretical and Applied Mechanics
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Task

Understand - how rotational DOF are integrated inside EDEM. For this: prepare simulation which could be compared with analytics.
For this:

  1. Prepare factory that creates particles
  2. Prepare contact model which describes the rule of interaction
  3. Prepare EDEM simulation
  4. Measure something and compare it to analytic

Who we are

Factory

We create 2 particles on a distance 0.1m and rotated at an angle of 5-15 () degrees;
These particles are of 2 types "small" and a "big" one; Big particle has identity matrix as rotation matrix; Small particle is rotated using rotation matrix
Particles's velocity and angular velocity equals to zero;
Y and Z coordinates are the same (0.5,0.5); Only X is different (0.45 for "big" and 0.55 for "small");

  • For small particle:

double OrientAngle = pi/12; // angle between particles in Radians
orientation[0] = 1.0; // Rotating particle. X axis.
orientation[4] = cos(OrientAngle);
orientation[5] = -sin(OrientAngle);
orientation[7] = sin(OrientAngle);
orientation[8] = cos(OrientAngle);

Contact Model

Alexey will soon write about it...

EDEM simulation