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STANDARD FIELD PROCEDURES FOR <br />• CONE PENETROMETER TESTING AND SAMPLING <br /> i <br /> This document describes Cambria Environmental Technology's standard field methods for Cone Penetrometer <br /> Testing (CPT) and direct-push soil and ground water sampling These procedures are designed to comply <br /> with Federal, State and local regulatory guidelines <br /> Use of CPT for logging and soil and groundwater sampling requires separate bonngs Typically an initial <br /> boring is advanced to estimate soil and groundwater characteristics as described below To collect soil samples <br /> a separate boring must be advanced using a sot] sampling device If groundwater samples are collected, <br /> another separate boring must be advanced using a groundwater sampling device Specific field procedures <br /> are summarized below <br /> Cone Penetrometer Testing (CPT) <br /> Cone Penetrometer Testing is performed by a trained geologist or engineer working under the supervision of <br /> a California Registered Geologist(RG) or a Certified Engineering Geologist(CEG) Cone Penetrometer Tests <br /> (CPT) are carried out by pushing an integrated electronic piezocone into the subsurface The piezocone is <br /> pushed using a specially designed CPT ng with a force capacity of 20 to 25 tons The piezocones are capable <br /> of recording the following parameters <br /> Tip Resistance (Qc) <br /> Sleeve Friction (Fs) <br /> Pore Water Pressure (U) <br /> Bulk Soil Resistivity(rho) - with an added module <br /> A compression cone is used for each CPT sounding Piezocones with rated load capacities of 5, 10 or 20 tons <br /> are used depending on soil conditions The 5 and 10 ton cones have a tip area of 10 sq cm and a friction <br /> sleeve area of 150 sq cm The 20 ton cones have a tip area of 15 sq cm and a friction sleeve area of 250 sq <br /> cm A pore water pressure filter is located directly behind the cone tip Each of the filters is saturated in <br /> glycerin under vacuum pressure prior to penetration Pore Pressure Dissipation Tests (PPDT) are recorded <br /> at 5 second intervals during pauses in penetration The equilibrium pore water pressure from the dissipation <br /> test can be used to identify the depth to groundwater <br /> The measured parameters are printed simultaneously on a printer and stored on a computer disk for future <br /> analysis All CPTs are tamed out in accordance with ASTM D-3441 A complete set of baseline readings <br /> is taken prior to each sounding to determine any zero load offsets <br /> The inferred stratigraphic profile at each CPT location is included on the plotted CPT logs The stratigraphic <br /> interpretations are based on relationships between cone bearing(Qc)and friction ratio (Rf) The friction ratio <br /> is a calculated parameter(Fs/Qc)used in conjunction with the cone bearing to identify the soil type Generally, <br /> soft cohesive soils have low cone bearing pressures and high friction ratios Cohesionless soils (sands)have <br /> high cone bearing pressures and low friction ratios The classification of soils is based on correlations <br /> developed by Robertson et at (1986) It is not always possible to clearly identify a soil type based on Qc and <br /> Rf alone Correlation with existing soils information and analysis of pore water pressure measurements should <br /> also be used in determining soil type <br /> CPT and sampling equipment are steam-cleaned or washed prior to work and between borings to prevent <br /> cross-contamination Sampling equipment is washed between samples with trisodium phosphate or an <br /> equivalent EPA-approved detergent Groundwater samples are decanted into appropriate containers supplied <br />