Litcius/Paper detail

Characteristics of MICP- and EICP-treated sands in simple shear conditions: a benchmarking with the critical state of untreated sand

Isaac Ahenkorah, Md Mizanur Rahman, Md Rajibul Karim, Simon Beecham

2023Géotechnique19 citationsDOI

Abstract

Microbial- or enzyme-induced calcium carbonate (CaCO 3 ) precipitation (MICP and EICP) are relatively new ground improvement techniques. In this study, the mechanical behaviour of biotreated (MICP/EICP) and untreated sands was investigated in light of the critical state soil mechanics framework using a series of direct simple shear (DSS) tests. A wide range of calcium carbonate content (C C ), initial void ratio after consolidation (e 0 ) and effective initial normal stress ([Formula: see text]) was considered. The biotreated specimens showed improved shear strength and dilative tendency compared to untreated specimens with similar initial states. The ultimate state (US) for the biotreated sand shifted towards a smaller void ratio (e) than the value of e at the critical state of untreated sand at the same σ′ N in e–log σ′ N space. Compared to untreated sand, a significantly larger US stress ratio was achieved for the biotreated sand, particularly at high C C and low [Formula: see text]. The characteristic features of undrained behaviour, such as instability stress ratio, stress ratio at phase transformation and flow potential showed good relationships with modified initial state parameter, void ratio after biotreatment and C C . The bonding ratio, (τ/σ′ N ) bond , was used to quantify the interparticle bonding. The peak value of (τ/σ′ N ) bond for the biotreated sand was significantly larger than zero, particularly at high C C and low [Formula: see text], while the peak (τ/σ′ N ) bond for the untreated sand was negligible. It was also observed that the mobilisation and degradation of calcium carbonate bonds in biotreated sand during DSS shearing are influenced by both C C and [Formula: see text].

Topics & Concepts

Void ratioChemistryGeotechnical engineeringCalcium carbonateGeologyOrganic chemistryMicrobial Applications in Construction MaterialsGrouting, Rheology, and Soil MechanicsTailings Management and Properties