Published August 19, 2023 | Version 1

Constitutive behavior of rocks during the seismic cycle

Authors/Creators

  • 1. University of Southern California

Description

Establishing a constitutive law for fault friction is a crucial objective of earthquake science. However, the complex frictional behavior of natural and synthetic gouges in laboratory experiments eludes explanations. Here, we present a constitutive framework that elucidates the rate, state, and temperature dependence of fault friction under the relevant sliding velocities and temperatures of the brittle lithosphere during seismic cycles. The competition between healing mechanisms, such as viscoelastic collapse, pressure-solution creep, and crack sealing, explains the low-temperature stability transition from steady-state velocity-strengthening to velocity-weakening as a function of slip-rate and temperature. In addition, capturing the transition from cataclastic flow to crystal plasticity accounts for the stabilization of fault slip at elevated temperatures. We calibrate the model using extensive laboratory data on synthetic albite and granite gouge, and on natural samples from the Alpine Fault and the Mugi Mélange in the Shimanto accretionary complex in Japan. The constitutive model consistently explains the evolving frictional response of fault gouge from room temperature to 600°C for sliding velocities ranging from nanometers to millimeters per second. The frictional response of faults can be uniquely determined by the in situ lithology and the prevailing hydrothermal conditions.

Files

Files (208.9 MB)

Name Size Download all
md5:b6bb96fdce294b5102138aaba7398e1f
1.0 kB Download
md5:2e6f0efca7f77a0cc243591b0d0f08e8
14.2 kB Download
md5:874164be14c34f8bd97b581ab073f52b
14.2 kB Download
md5:0625981ebb6b1e0959be70d47f8e96b7
158 Bytes Download
md5:e4e5e8e718cafde1d53d5a76ffa03e9c
123 Bytes Download
md5:6b1a3d506de06f6fc375079e86f4ebbd
317 Bytes Download
md5:2f3abfe927cb27e4abfae5f053096599
1.0 kB Download
md5:89ab87d7feca24786d62f73bb3b19198
201 Bytes Download
md5:3156cf9470e1deb0414e03684ca4d3e1
646 Bytes Download
md5:9974f359a0dfe8f79ae796910bd542ed
489 Bytes Download
md5:e16b468c0c91331b0a711466bc265c09
3.1 kB Download
md5:4ff39645a5c5307e4e10c2fbfaf5d7bb
11.3 kB Download
md5:9164dd693510e75ab84995ac533f2cfd
4.5 kB Download
md5:8d2c39ed2949f7ac0539706161198f12
341 Bytes Download
md5:fe9301a91a92db038d7c6e326cdb0095
415 Bytes Download
md5:10c2049490f9e9fc2eba375eaf4649b0
427 Bytes Download
md5:201a7012d864d6b89adc93ce127ce376
425 Bytes Download
md5:5b0fcd3407610ffe4584ecd30aa40e55
437 Bytes Download
md5:23a857e906f9678b0c78784e050428f5
578 Bytes Download
md5:e7571dcfc51b6a0ef2252c9e4fa5cc4f
437 Bytes Download
md5:f3760aae6eb81557189987d948957194
437 Bytes Download
md5:63a728b28a648b2fc3b93862d682ef03
10.1 kB Download
md5:16da995731eebe00de24d17ebe8dda31
10.4 kB Download
md5:ced00fa2de2702e29342382a59c5d432
14.2 kB Download
md5:3a3a3d24148c958389a64fa62529fbe1
11.7 kB Download
md5:5fd71f2845c5e6c247d13694a57eb741
11.9 kB Download
md5:6e46bb0baa32de7fd5943cbfac13efab
1.6 kB Download
md5:e05cd89617eefa13e6327fce1b11988c
11.5 kB Download
md5:e5e795419ffc8bdc39bfd5d386bbfb94
562 Bytes Download
md5:de31424a6b225b95c344cf13465dd10c
1.0 kB Download
md5:5a2ce97d60aa9b7a0ef287b79f426544
5.5 kB Download
md5:49f073c4d4c059e358f4c9e755365980
6.1 kB Download
md5:860f0fc00684e5046c470646763e87fd
9.1 kB Download
md5:9924166438916bd0cc4c1890f32917e1
9.2 kB Download
md5:6141edfef84c55e95f86564f417e3720
93.2 MB Download
md5:f97235683a1507d5348cbeda98d807d6
115.6 MB Download