The diversified applications for soil penetrometers imply a need for improv
ed load-sensing capability. The feasibility of using a piezoelectric transd
ucer as a load-sensing device on a soil cone penetrometer was investigated.
A miniaturized piezoelectric load cell (piezocell) was calibrated in a sta
nd-alone mode using known static loads. The response of the load cell to lo
ading cycles in this mode was also observed. The piezocell was integrated i
nto the lower end of a penetrometer shaft such that it measured resistance
sensed immediately at the base of the cone. A strain gauge load cell was in
tegrated to the upper part of the penetrometer shaft to measure penetration
resistance for comparative purposes. Penetrometer resistance was measured
in soil columns in the laboratory using this penetrometer configuration. Pi
ezocell resistance measurements compared well with the measurements by the
strain gauge load cell in both calibration sensitivity and in time response
. The physical and performance characteristics of the piezocell showed that
it was well suited for use on cone penetrometers. (C) 2000 Silsoe Research
Institute.