Damping Options
NairnMPM has two forms of grid damping. Their most common use to to damp dynamic effects an converge to static solution.
Introduction
Grid damping is damping term applied each node on the grid that alters the grid forces (or accelerations). In brief, the force update on node i is calculated from:
[math]\displaystyle{ f_{i}(t+\Delta t) = f_{i}(t) - \alpha p_i }[/math]
where fi is total force on node i from all sources, pi is nodal momentum, and α is the grid damping constant (in units of 1/sec). The nodal velocity update becomes:
[math]\displaystyle{ v_{i}(t+\Delta t) = v_{i}(t) +(a_i^* - \alpha v_i^*) \Delta t }[/math]
where ai* = fi/mi is nodal acceleration without damping, vi* = pi/mi is nodal velocity, and mi is nodal mass. The two types of grid damping differ only in entry end evolution of the damping term α.