Using molecular dynamics with an accurate many-body potential, we studied t
he rapid expansion of Ta metal following the high compression (50 to 100 GP
a) induced by high velocity (2 to 4 km/s) impact. We find that catastrophic
failure in this system coincides with a critical behavior characterized by
a void distribution of the form N(upsilon) proportional to V-tau, with tau
similar to -2.2. This corresponds to a threshold in which percolation of t
he voids results in tensile failure. We define an order parameter (phi, the
ratio of the volume of the largest void to the total void volume) which ch
anges rapidly from similar to0 to similar to1 when the metal fails and scal
es with as phi proportional to(rho-rho (c))(beta) with exponent beta simila
r to0.4, where rho is the total void fraction. We found similar behavior fo
r FCC Ni suggesting that this critical behavior is a universal characterist
ic for failure of solids in rapid expansion.