Abstract
Reverse extrusion has been promoted over the past four decades for remoulded undrained shear strength (s u) measurement and consistency-limit determinations. The technique employs a uniaxial-compression test machine to set the die travelling against the confined soil specimen (billet) at a constant displacement rate (v), with the soil extruded through the die orifice under a steady-state extrusion pressure (p e). This paper presents the first comprehensive literature review of this topic, including a reassessment of extensive data sets presented for many hundreds of fine-grained soils covering an extremely wide plasticity range. Specifically, the paper critically examines (a) the soil billet’s assumed undrained condition and hence the constancy of the p e/s u ratio value, which is central to s u determinations using this approach; (b) the dependence of the steady-state p e value on both the billet’s area reduction ratio (R) and v; (c) the role of soil remoulding toughness; and (d) the pitfalls of various data analysis and interpolation techniques employed. The author concludes that, depending on mineralogy and gradation, localised billet consolidation may occur for the slow displacement rates employed and high p e values required, particularly for stiffer soils, such that the present extrusion approach is generally not recommended for s u measurement or Atterberg-limit determinations.
Highlights
The technique employs a uniaxial-compression test machine to set the die travelling against the confined soil specimen at a constant displacement rate (v), with the soil extruded through the die orifice under a steady-state extrusion pressure
This modification was adopted for the mud-press machine (MPM) extrusion device developed by Kayabali et al (2015a, 2016) and which is described later
Calibration of the RE device is performed experimentally, with its pertinent value of KRE for specific R and v values producing a one-to-one correspondence between the correlations for measured pairs of steady-state extrusion pressure and undrained shear strength values determined for the reference test material prepared at various water contents
Summary
Research Article Paper 1900006 Received 07/02/2019; Accepted 05/06/2019 Published online 27/06/2019 Published with permission by the ICE under the CC-BY 4.0 license. (http://creativecommons.org/licenses/by/4.0/) Keywords: geotechnical engineering/ materials technology/strength & testing of materials
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