Dynamic compression of enstatite

New shock wave data for Bamle enstatite (Mg_(0.86),Fe_(0.14))SiO_3 in the range from 60–480 kb indicate a Hugoniot elastic limit of 67±10 kb and a possible phase-transition-produced shock front of 135±10 kb amplitude. Above the latter shock pressure, states in a mixed-phase regime are achieved up to ∼350 kb, above which the Hugoniot states are believed to represent the equation of state of a shock-induced phase, probably having the majorite (garnet) structure with a zero-pressure density of ∼3.67 g/cm^3. The present data, representing the high-pressure phase, agree closely with those of R. G. McQueen, S. P. Marsh, and J. N. Fritz above 610 kb for a Stillwater bronzitite of similar mineralogy. It is suggested that the formation of majorite from enstatite in naturally impacted rocks and meteorites requires dynamic pressures of at least ∼135 kb.