Citation:

PANGAEA.915079

Name: Results of velocity-cycling tests
Creator: Matt J Ikari
Published: 2020-04-22
License: https://creativecommons.org/licenses/by/4.0/
Keywords: Alpine Fault; fault; friction; healing; recurrence time; Waikukupa

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Keyword(s):

Alpine Fault; fault; friction; healing; recurrence time; Waikukupa

Related to:

Ikari, Matt J; Carpenter, Brett M; Scuderi, Marco M; Collettini, Cristiano; Kopf, Achim J (2020): Frictional strengthening explored during non-steady state shearing: Implicationsfor fault stability and slip eventrecurrence time. Journal of Geophysical Research: Solid Earth, 125(10), e2020JB020015, https://doi.org/10.1029/2020JB020015

Coverage:

Latitude: -43.514247 * Longitude: 169.943292

Event(s):

TS14_WT4 * Latitude: -43.514247 * Longitude: 169.943292 * Location: Waikukupa Thrust, New Zealand

TS26_WT4 * Latitude: -43.514247 * Longitude: 169.943292 * Location: Waikukupa Thrust, New Zealand

Comment:

(a-b) indicates steady-state sliding was reached during the intercycle period, so that an a-b value could be obtained by inverse modeling (see Table S4).

Parameter(s):

#	Name	Short Name	Unit	Principal Investigator	Method/Device	Comment
1	Event label	Event		Ikari, Matt J
2	Interval velocity	Interval V	m/s	Ikari, Matt J		Inter-Cycle Velocity
3	Friction coefficient	µ		Ikari, Matt J		Initial µ
4	Friction coefficient	µ		Ikari, Matt J		Peak µ
5	Change in friction coefficient	Δµ		Ikari, Matt J
6	Duration	Duration	s	Ikari, Matt J
7	Displacement	DIS	mm	Ikari, Matt J	Calculated
8	Parameter	Parameter	arbitrary units	Ikari, Matt J		Γ
9	Comment	Comment		Ikari, Matt J

License:

Creative Commons Attribution 4.0 International (CC-BY-4.0)

Size:

168 data points

Data

Download dataset as tab-delimited text — use the following character encoding:

1 Event	2 Interval V [m/s] (Inter-Cycle Velocity)	3 µ (Initial µ)	4 µ (Peak µ)	5 Δµ	6 Duration [s]	7 DIS [mm]	8 Parameter [arbitrary units] (Γ)	9 Comment
TS14_WT4	300E-12	0.561	0.707	0.145	344000	0.1000	-0.0048
TS14_WT4	800E-12	0.554	0.698	0.144	349108	0.2800	-0.0046
TS14_WT4	3.0E-9	0.555	0.651	0.096	344700	1.0000	-0.0010
TS14_WT4	10E-9	0.582	0.652	0.070	344900	3.4000		(a-b)
TS14_WT4	30E-9	0.581	0.652	0.072	345000	10.0000		(a-b)
TS14_WT4	100E-12	0.595	0.751	0.156	345000	0.0350	-0.0013
TS14_WT4	10E-9	0.587	0.660	0.074	1010	0.0100	0.0035
TS14_WT4	30E-9	0.576	0.653	0.077	1000	0.0300	-0.0015
TS14_WT4	100E-9	0.581	0.633	0.053	1010	0.1000		(a-b)
TS14_WT4	300E-9	0.582	0.622	0.040	1010	0.3000		(a-b)
TS14_WT4	3.0E-9	0.583	0.672	0.089	1000	0.0030	0.0069
TS26_WT4	3.0E-9	0.623	0.699	0.076	1010	0.0030	0.0064
TS26_WT4	30E-9	0.626	0.685	0.060	1010	0.0300	0.0000
TS26_WT4	300E-9	0.615	0.654	0.039	1000	0.3000		(a-b)
TS26_WT4	100E-12	0.617	0.696	0.079	1000	0.0001	0.0043
TS26_WT4	300E-12	0.613	0.694	0.081	1002	0.0003	0.0048
TS26_WT4	1.0E-9	0.612	0.696	0.084	1001	0.0010	0.0060
TS26_WT4	3.0E-9	0.621	0.699	0.078	1002	0.0030	0.0062
TS26_WT4	10E-9	0.620	0.703	0.083	1001	0.0100	0.0056
TS26_WT4	30E-9	0.623	0.698	0.074	1002	0.0300	-0.0009
TS26_WT4	100E-9	0.618	0.671	0.052	1001	0.1000		(a-b)
TS26_WT4	1.0E-9	0.616	0.697	0.081	1001	0.0010	0.0056
TS26_WT4	3.0E-9	0.610	0.694	0.085	1002	0.0030	0.0064
TS26_WT4	10E-9	0.607	0.694	0.086	1002	0.0100	0.0054