Abstract:
The standard cone penetration test (CPT) measures the resistance at the tip (q(c)) during constant rate of penetration as well as the friction/adhesion along the sleeve (fs). The excess porewater pressures generated as a result of the penetration can also be measured by a piezometer/transducer (u(2)) located immediately behind the cone (CPTU). The collected data help to identify several physical, hydraulic and mechanical properties of the soil layers. However, the main function of the test is soil classification. Classification has been done by using the q(c) and f(s) values at the early stages to be followed by incorporating the concept of soil behaviour type index I-c. Soil behaviour type (SBT) index calculates I-c and is generally calculated by normalised values of tip resistance and sleeve friction: Q and F, respectively. The porewater pressure component in the relationship is accounted for by the coefficient B-q. A clear distinction between the soil classes cannot be made due to limited coverage of the parameters employed. A new parameter "i" which contributes significantly to the classification process by the use of varying porewater pressure values Delta u(w) by depth is introduced in this paper to improve the value of I-c in the classification procedure. (C) 2013 Elsevier B.V. All rights reserved.
