Controls on sill and dyke-sill hybrid geometry and propagation in the crust: the role of fracture toughness

Kavanagh, J. L.; Rogers, B. D.; Boutelier, D.; Cruden, A. R.

Title: Controls on sill and dyke-sill hybrid geometry and propagation in the crust: the role of fracture toughness
Creator: Kavanagh, J. L.; Rogers, B. D.; Boutelier, D.; Cruden, A. R.
Relation: Tectonophysics Vol. 698, Issue February 2017, p. 109-120
Publisher Link: http://dx.doi.org/10.1016/j.tecto.2016.12.027
Publisher: Elsevier
Resource Type: journal article
Date: 2017
Description: Analogue experiments using gelatinewere carried out to investigate the role of the mechanical properties of rock layers and their bonded interfaces on the formation and propagation of magma-filled fractures in the crust. Water was injected at controlled flux through the base of a clear-Perspex tank into superposed and variably bonded layers of solidified gelatine. Experimental dykes and sills were formed, as well as dyke-sill hybrid structures where the ascending dyke crosses the interface between layers but also intrudes it to form a sill. Stress evolution in the gelatine was visualised using polarised light as the intrusions grew, and its evolving strain was measured using digital image correlation (DIC). During the formation of dyke-sill hybrids there are notable decreases in stress and strain near the dyke as sills form, which is attributed to a pressure decrease within the intrusive network. Additional fluid is extracted from the open dykes to help grow the sills, causing the dyke protrusion in the overlying layer to be almost completely drained. Scaling laws and the geometry of the propagating sill suggest sill growth into the interface was toughness-dominated rather than viscosity-dominated.We define K_Ic* as the fracture toughness of the interface between layers relative to the lower gelatine layer K_IcInt / K_IcG. Our results show that K_Ic* influences the type of intrusion formed (dyke, sill or hybrid), and the magnitude of KIcInt impacted the growth rate of the sills. K_IcInt was determined during setup of the experiment by controlling the temperature of the upper layer T_m when it was poured into place, with T_m < 24 °C resulting in an interface with relatively low fracture toughness that is favourable for sill or dyke-sill hybrid formation. The experiments help to explain the dominance of dykes and sills in the rock record, compared to intermediate hybrid structures.
Subject: dyke; sill; analogue experiment; gelatine; fracture toughness; magma intrusion
Identifier: http://hdl.handle.net/1959.13/1351370
Identifier: uon:30697
Identifier: ISSN:0040-1951
Language: eng
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