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Gregg in Situ <br /> Environmental and Geotechnical Site Investigation Contractors <br /> Gregg In Situ Interpretations as of June 30, 2004(Release 1.22A) <br /> Gregg In Situ's interpretation routine provides a tabular output of geotechnical parameters based on current <br /> Published CPT correlations and is subject to change to reflect the current state of practice The interpreted <br /> values are not considered valid for all sod types The interpretations are presented only as a guide for <br /> geotechnical use and should be carefully scrutinized for consideration in any geotechnical design <br /> Reference to current literature is strongly recommended Gregg In Situ does not warranty the correctness <br /> or the applicability of any of the geotechnical parameters interpreted by the program and does not assume <br /> liability for any use of the results in any design or review Representative hand calculations should be <br /> made for any parameter that is critical for design purposes The end user of the interpreted output should <br /> also be fully aware of the techniques and the limitations of any method used in this program The purpose <br /> of this document is to inform the user as to which methods were used and what the appropriate papers <br /> and/or publications are for further reference <br /> The CPT interpretations are based on values of tip,sleeve fncbon and pore pressure averaged over a user <br /> specified interval (e g 0 20m) Note that qi is the tip resistance corrected for pore pressure effects and q, <br /> is the recorded tip resistance Since all Gregg In Situ cones have equal end area friction sleeves, pore <br /> pressure corrections to sleeve friction, %, are not required <br /> The tip correction is qt=q. + (1-a) .uZ <br /> where qt is the corrected tip resistance <br /> q,is the recorded tip resistance <br /> ux is the recorded dynamic pore pressure behind the tip(u� position) <br /> . a is the Net Area Ratio for the cone (typically 0 85 for Gregg In Situ cones) <br /> The total stress calculations are based on sod unit weights that have been assigned to the Sod Behavior <br /> Type zones,from a user defined unit weight profile or by using a single value throughout the profile <br /> Effective vertical overburden stresses are calculated based on a hydrostatic distnbution of equilibrium pore <br /> pressures below the water table or from a user defined equilibrium pore pressure profile(this can be <br /> obtained from CPT dissipation tests) For over water projects the effects of the column of water have been <br /> taken into account as has the appropriate unit weight of water How this is done depends on where the <br /> instruments were zeroed (i a on deck or at mud line) <br /> Details regarding the interpretation methods for all of the interpreted parameters are provided in Table 1 <br /> The appropriate references cited in Table 1 are listed in Table 2 Where methods are based on charts or <br /> techniques that are too complex to describe in this summary the user should refer to the cited material <br /> The estimated Sod Behavior Types(normalized and non-normalized)are based on the charts developed by <br /> Robertson and Campanella shown in Figures 1 and 2 The Bq classification charts are not reproduced in <br /> this document but can be reviewed in Lunne. Robertson and Powell (1997)or Robertson (1990) <br /> Where the results of a calculatronrinterpretation are declared 'rnvelid'the value will be represented by the <br /> text strings"-9999"or"-9999 0" In some cases the value 0 will be used invalid results will occur because <br /> of(and not limited to)one or a combination of <br /> 1 Invalid or undefined CPT data (e g drilled out section or data gap) _ <br /> 2 Where the interpretation method is inappropriate, for example, drained parameters in an undrained <br /> material (and vice versa) The user must evaluate the site specific soil conditions and <br /> characteristics to properly apply the appropriate interpretation method <br />