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Document type
Institution
Specific Collection
Language
- English (5)
Author
- Müller, C. (5)
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Third, J. (5)
- Lu, G. (2)
- Scott, D. (2)
- Scott, S. (2)
- Köhl, M. (1)
- McLaren, C. (1)
Keyword
- Rotating cylinders (3)
- D : Diameter of cylinder, m (2)
- Discrete element method (2)
- F n : Normal force between colliding particles, N (2)
- F t : Tangential force between colliding particles, N (2)
- Granular materials (2)
- d p : Nominal particle diameter, m (2)
- dt : Timestep, s (2)
- f : Cylinder fill level (2)
- g : Acceleration due to gravity, m/s2 (2)
- k n : Normal spring stiffness, N/m (2)
- k t : Tangential spring stiffness, N/m (2)
- m : Particle mass, kg (2)
- m ij : Effective mass in collision between particles i and j, kg (2)
- t col : Duration of a collision, s (2)
- v n : Relative velocity in normal direction, m/s (2)
- v t : Relative velocity in tangential direction, m/s (2)
- Ω : Cylinder rotation speed, rpm (2)
- δ n : Particle overlap, m (2)
- δ t : Tangential displacement, m (2)
- η n : Damping factor in normal direction (2)
- η t : Damping factor in tangential direction (2)
- ρ : Particle density, kg/m3 (2)
- $$F_\mathrm {n}$$ F n : Normal force between colliding particles (N) (1)
- $$F_\mathrm {t}$$ F t : Tangential force between colliding particles (N) (1)
- $$H$$ H : Height of domino (m) (1)
- $$S$$ S : Domino sequence number (-) (1)
- $$T$$ T : Thickness of domino (m) (1)
- $$V$$ V : Intrinsic collision speed (m/s) (1)
- $$\lambda $$ λ : Domino spacing (m) (1) More Less