Smectite-rich fault gouges recovered during Integrated Ocean Drilling Program Expedition 343 (Japan Trench Fast Drilling Project (J-FAST)) from the plate boundary slip zone of the 2011 M-w 9.0 Tohoku-Oki earthquake were deformed at slip velocities of 10 mu ms(-1) to 3.5ms(-1) and normal stresses up to 12MPa. Water-dampened gouges (1) are weaker (apparent friction coefficient, * <0.1) than room-humidity gouges (apparent friction coefficient, * 0.1-0.35) at all slip velocities, (2) are velocity insensitive to velocity weakening at all slip velocities, unlike room-humidity gouges that are velocity strengthening at intermediate velocities (V=0.001-0.1ms(-1)), and (3) have negligible peak * at high slip velocities (V>0.1ms(-1)). A significant amount of amorphous material formed in room-humidity experiments at low- and high-slip velocities, likely by comminution and disordering of smectite. Our results indicate that the frictional properties of water-dampened gouges could have facilitated propagation of the Tohoku-oki rupture to the trench and large coseismic slip at shallow depths.

Frictional properties of fault zone gouges from the J-FAST drilling project (Mw 9.0 2011 Tohoku-Oki earthquake)

MITTEMPERGHER, SILVIA;DI TORO, GIULIO
2015

Abstract

Smectite-rich fault gouges recovered during Integrated Ocean Drilling Program Expedition 343 (Japan Trench Fast Drilling Project (J-FAST)) from the plate boundary slip zone of the 2011 M-w 9.0 Tohoku-Oki earthquake were deformed at slip velocities of 10 mu ms(-1) to 3.5ms(-1) and normal stresses up to 12MPa. Water-dampened gouges (1) are weaker (apparent friction coefficient, * <0.1) than room-humidity gouges (apparent friction coefficient, * 0.1-0.35) at all slip velocities, (2) are velocity insensitive to velocity weakening at all slip velocities, unlike room-humidity gouges that are velocity strengthening at intermediate velocities (V=0.001-0.1ms(-1)), and (3) have negligible peak * at high slip velocities (V>0.1ms(-1)). A significant amount of amorphous material formed in room-humidity experiments at low- and high-slip velocities, likely by comminution and disordering of smectite. Our results indicate that the frictional properties of water-dampened gouges could have facilitated propagation of the Tohoku-oki rupture to the trench and large coseismic slip at shallow depths.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11577/3190741
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