Open AccessCPTU identification of regular, sensitive, and organic clays towards evaluating preconsolidation stress profiles
Author(s) -
Shehab S. Agaiby,
Paul W. Mayne
Publication year - 2021
Publication title -
aims geosciences
Language(s) - English
Resource type - Journals
ISSN - 2471-2132
DOI - 10.3934/geosci.2021032
Subject(s) - geotechnical engineering , soil water , sorting , clay soil , penetration test , soil science , geology , environmental science , mathematics , algorithm , subgrade
Soil classification by piezocone penetration tests (CPTU) is mainly accomplished using empirical soil behavior charts (SBT). While commonly-used SBT methods work well to separate fine-grained soils from granular coarse-grained soils, in many instances, the groupings often fail to properly identify different categories of clays, specifically: (a) "regular" clays that are inorganic and insensitive, (b) sensitive and quick clays; and (c) organic soils. Herein, a simple means of screening and sorting these three clay types is shown using three analytical CPTU expressions for evaluating the preconsolidation stress profile from net cone resistance, excess porewater pressure, and effective cone resistance. A number of case studies are utilized to convey the methodology.