1999
DOI: 10.1098/rsta.1999.0349
|View full text |Cite
|
Sign up to set email alerts
|

Narrow rifts versus wide rifts: inferences for the mechanics of rifting from laboratory experiments

Abstract: Laboratory experiments on analogue models of the lithosphere are useful tools to study tectonic processes and, in particular, to test physical hypotheses. They complement numerical modelling because the inherent limitations of each method are different. The basic principles of the method are recalled with particular application to models simulating the brittle-ductile layering of continental crust and lithosphere using sand and silicone putties to simulate the frictional and viscous behaviour of rocks. A selec… Show more

Help me understand this report

Search citation statements

Order By: Relevance

Paper Sections

Select...
1
1
1
1

Citation Types

22
263
1
3

Year Published

2010
2010
2017
2017

Publication Types

Select...
7

Relationship

0
7

Authors

Journals

citations
Cited by 276 publications
(289 citation statements)
references
References 32 publications
22
263
1
3
Order By: Relevance
“…High brittle-ductile coupling due to high strain rates or high viscosities in the ductile domain causes distributed deformation (wide rifting) in the brittle parts of the crust (Brun, 1999;Buiter et al, 2008), preventing the development of discrete fault zones (Allken et al, 2011;2012;Zwaan et al, 2016). It is thus necessary to decrease deformation rates in our analog models in order to limit wide rifting effects, as shown in Fig candidate at the University of Bern (Switzerland), studying the effects of oblique extension and scissor tectonics on rift interaction and rift propagation with the use of analog models and Xray CT techniques.…”
Section: Appendix a Effect Of Lower Extension Velocitymentioning
confidence: 99%
See 2 more Smart Citations
“…High brittle-ductile coupling due to high strain rates or high viscosities in the ductile domain causes distributed deformation (wide rifting) in the brittle parts of the crust (Brun, 1999;Buiter et al, 2008), preventing the development of discrete fault zones (Allken et al, 2011;2012;Zwaan et al, 2016). It is thus necessary to decrease deformation rates in our analog models in order to limit wide rifting effects, as shown in Fig candidate at the University of Bern (Switzerland), studying the effects of oblique extension and scissor tectonics on rift interaction and rift propagation with the use of analog models and Xray CT techniques.…”
Section: Appendix a Effect Of Lower Extension Velocitymentioning
confidence: 99%
“…When angle α is 0°, extension is orthogonal. We apply an extension velocity of 3 mm∕h to better localize deformation, eliminating the effects due to high brittle-ductile coupling and the associated wide rifting (Brun, 1999;Buiter et al, 2008;Figure A-1). As it is standard in most physical rifting models, the extension rate is constant along the whole length of our models.…”
Section: Model Setupmentioning
confidence: 99%
See 1 more Smart Citation
“…Being left with large uncertainties and following other experimentalists [e.g., Bonini, 2001;Costa and Vendeville, 2002;Fort et al, 2004], we employed very weak (viscosity m = 2.4 × 10 4 Pa s at laboratory temperature) Newtonian viscous silicone putty as analog to overpressured layers. Indeed, experimental results are discussed in the light of first-order stress distribution and shear stress contrast between adjacent layers [e.g., Davy and Cobbold, 1991;Brun, 1999], leaving aside the question of exact rheological properties of natural samples and, therefore, that of the strict rheological similarity between prototype and model.…”
Section: Methodsmentioning
confidence: 99%
“…[24] Previous experimental studies have analyzed the effects of brittle-ductile coupling in terms of relative strength between the brittle and ductile layers in both extensional [Nalpas and Brun, 1993;Brun, 1999Brun, , 2002 and compression settings [Bonini, 2001;Smit et al, 2003]. This approach allows taking into account lateral variations in rheology and geometry of separate layers.…”
Section: Wedge Equilibriummentioning
confidence: 99%