2-D finite displacements and strain from particle imaging velocimetry (PIV) analysis of tectonic analogue models with TecPIV

Boutelier, David; Schrank, Christoph; Regenauer-Lieb, Klaus

Title: 2-D finite displacements and strain from particle imaging velocimetry (PIV) analysis of tectonic analogue models with TecPIV
Creator: Boutelier, David; Schrank, Christoph; Regenauer-Lieb, Klaus
Relation: Solid Earth Vol. 10, Issue 4, p. 1123-1139
Publisher Link: http://dx.doi.org/10.5194/se-10-1123-2019
Publisher: Copernicus
Resource Type: journal article
Date: 2019
Description: Image correlation techniques have provided new ways to analyse the distribution of deformation in analogue models of tectonics in space and time. Here, we demonstrate, using a new version of our software package (TecPIV), how the correlation of successive time-lapse images of a deforming model allows not only to evaluate the components of the strain-rate tensor at any time in the model but also to calculate the finite displacements and finite strain tensor. We illustrate with synthetic images how the algorithm produces maps of the velocity gradients, small-strain tensor components, incremental or instantaneous principal strains and maximum shear. The incremental displacements can then be summed up with Eulerian or Lagrangian summation, and the components of the 2-D finite strain tensor can be calculated together with the finite principal strain and maximum finite shear. We benchmark the measures of finite displacements using specific synthetic tests for each summation mode. The deformation gradient tensor is calculated from the deformed state and decomposed into the finite rigid-body rotation and left or right finite-stretch tensors, allowing the deformation ellipsoids to be drawn. The finite strain has long been the only quantified measure of strain in analogue models. The presented software package allows producing these finite strain measures while also accessing incremental measures of strain. The more complete characterisation of the deformation of tectonic analogue models will facilitate the comparison with numerical simulations and geological data and help produce conceptual mechanical models.
Subject: deformations; tectonics; image correlation techniques; tectonic analogue modelling
Identifier: http://hdl.handle.net/1959.13/1407635
Identifier: uon:35756
Identifier: ISSN:1869-9510
Language: eng
Full Text
Reviewed

Hits: 3569
Visitors: 3861
Downloads: 306

		Thumbnail	File	Description	Size	Format
View Details Download			ATTACHMENT02	Publisher version (open access)	8 MB	Adobe Acrobat PDF	View Details Download