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ARCHIVED REPORTS_XR0002806
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ARCHIVED REPORTS_XR0002806
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Last modified
2/3/2020 7:30:52 PM
Creation date
2/3/2020 10:26:26 AM
Metadata
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Template:
EHD - Public
ProgramCode
3500 - Local Oversight Program
File Section
ARCHIVED REPORTS
FileName_PostFix
XR0002806
RECORD_ID
PR0545262
PE
3528
FACILITY_ID
FA0009940
FACILITY_NAME
SAN JOAQUIN CATHOLIC CEMETERY
STREET_NUMBER
719
Direction
E
STREET_NAME
HARDING
STREET_TYPE
WAY
City
STOCKTON
Zip
95204
APN
12720002
CURRENT_STATUS
02
SITE_LOCATION
719 E HARDING WAY
P_DISTRICT
001
QC Status
Approved
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SJGOV\sballwahn
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EHD - Public
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CONE EC <br /> T® ConeTec <br /> Geotechnical and Environmental Site Investigation Contractors <br /> ConeTec CPT Interpretations as of January 7, 1999 (Release 1.00.19) <br /> ConeTec's interpretation routine should be considered a calculator of current published CPT correlations <br /> and is subject to change to reflect the current state of practice The interpreted values are not considered <br /> valid for all soil types The Interpretations are presented only as a guide for geotechnical use and should be <br /> carefully scrutinized for consideration in any geotechnical design Reference to current literature Is strongly <br /> recommended <br /> The CPT interpretations are based on values of tip, sleeve friction and pore pressure averaged over a user <br /> specified Interval (typically 0 25m) Note that Qt Is the recorded tip value, Qc,corrected for pore pressure <br /> effects Since all ConeTec cones have equal end area friction sleeves, pore pressure corrections to sleeve <br /> friction, Fs, are not required <br /> The tip correction Is Qt = Qc+ (1-a) •Ud <br /> where Qt is the corrected tip load <br /> _Qc is the recorded tip load <br /> Ud is the recorded dynamic pore pressure <br /> a is the Net Area Ratio for the cone(typically 0 85 for ConeTec cones) <br /> Effective vertical overburden stresses are calculated based on a hydrostatic distribution of equilibrium pore <br /> pressures below the water table or from a user defined equilibnum pore pressure profile(this can be <br /> obtained from CPT dissipation tests) The stress calculations use unit weights assigned to the Soil <br /> Behaviour Type zones or from a user defined unit weight profile <br /> Details regarding the interpretation methods for all of the interpreted parameters is given In table 1 The <br /> appropriate references referred to in table 1 are listed In table 2 <br /> The estimated Soil Behaviour Type is based on the charts developed by Robertson and Campanella shown <br /> in figure 1 <br /> Table 1 CPT Interpretation Methods <br /> Interpreted Description Equation Ref <br /> Parameter <br /> Depth mid layer depth <br /> AvgQt Averaged corrected tip(Qy AvgQt=1 Qt <br /> AvgFs Averaged sleeve-friction(Fs) 1 <br /> 1 - -- <br /> AvgFs=_j Fs. <br /> n <br /> AvgRf i Averaged friction rano(Rf) Av Fs <br /> - AvgRf=100%• AvgQt <br /> AvgUd Averaged dynamic pore pressure(Ud) I x <br /> AvgUd=- Ud <br /> n - _ <br /> SBT Sod Behavior Type as defined by Robertson and Campanella <br />
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