VARIATIONS IN PRESSUREMETER MODULUS (EM)

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Int. J. of EOATE, Feb., 1, Vol. 1, No. 1 (Sl. No. 19), pp. 175-179 Int. J. of EOATE, Feb., 1, Vol. 1, No. 1 (Sl. No. 19), pp. 175-179 eotech., Const. at. and Env., ISSN: 1-9(), 1-99(O), Japan VARIATIONS IN RESSUREETER ODULUS (E) Radhi Alzubaidi College of Engineering, University of Sharjah, UAE ABSTRACT: The modulus E is frequently used in the design of foundations to estimate the displacement of geotechnical structures, for loaded foundations, flexible earth retaining structures, and even as a first assessment for embankment lying on compressible soil. One of the main parameters that interpreted from enard ressuremeter test is the elastic modulus. Different methods been used to explore the values of E from pressuremeter tests, in the present paper three methods utilized to interpret the pressuremeter tests modulus that conducted in a site in Abu Dhabi. The methods showed great discrepancies in the deduced values of the elastic modulus for the The differences in the results may reach to %, the present study also suggested a reliable method of analysis for the pressuremeter modulus. Keywords: ressuremeter modulus, enard method, ibson and Anderson method, almer method 1. INTRODUCION enard pressuremeter is one of in situ testing that generates useful information about the strength and deformation properties of any soil and weak rock. enard pressuremeter tests performed in clay and silt soil [1] the strain controlled tests generally yield slightly higher E than the stress controlled, these differences could not be explained only by the time dependency of E, other elements, probably related to loading pattern specific to each method, must be considered, but whatever the reason, it is important to note that for the soils considered these differences remained small and not very significant. The effect of changing the rate of strain of pressuremeter tests investigated on clay soils on undrained parameters [].Four rates of strain were employed to explore the effects on undrained parameters of the clay soil. The results showed that the values of pressuremeter modulus (E ) were sensitive to the rate strain tests, the pressuremeter modulus values explored distinctive increase with increasing the rate of strain of pressuremeter testing and showed lower values with low rate of strain. The small strain modulus as calculated from the shear wave velocity determined from seismic surface wave methods were compared with intermediate strain modulus directly measured by the pressuremeter test [3]. The results showed that the ratio of small stain modulus to pressuremeter modulus was relatively consistent. enard pressuremeter tests were conducted [] and compared the results of the elastic modulus with standard penetration test (ST) blow counts (N ) where N represents the corrected blow count for ST; they proposed empirical equations to determine the elastic from (N ). The interpretation of the pressuremeter modulus extensively examined in present paper using different methods of analysis, in particular an attempt is made to demonstrate that the pressuremeter can explore reliable values of the elastic modulus, three methods of evaluation the pressuremeter modulus been utilized, the methods showed great discrepancies in the results for the same tests, one of these methods selected to give reliable values of the pressuremeter modulus.. THE RESSUREETER ODULUS E The pressuremeter tests offer the calculation of the elastic modulus of the soil. The equation for radial expansion of a cylindrical cavity in infinite elastic medium as presented by [5] as =V. ( / V) (1) = the shear modulus V= the volume of the cavity =difference in pressure in the cavity V=difference in the volume of the cavity For the pressuremeter test, the above equation can be used to find the shear modulus. The following equation roposed [] to calculate the shear modulus from -V curve as can be seen in Fig.1 as follows = V m. ( / V) () 175

Int. J. of EOATE, Feb., 1, Vol. 1, No. 1 (Sl. No. 19), pp. 175-179 V m = the mean value of the borehole volume in the elastic part = difference in pressure in the borehole V =difference in the volume of the borehole To convert the shear modulus to Young s modulus, the following well know relation is used =E / (1+ν ) (3) E = odulus of deformation ν = oisson s ratio Another method of interpretation of the elastic modulus also developed and presented [7], their solution show during the elastic phase of the expansion of the borehole at pressure above o, the value of the Young s modulus, E can be written as E =[ (1+ν )a] /ρ o () = difference in pressure ν = oisson s ratio a= borehole diameter at pressure ρ o = change in radial displacement at borehole wall The value of E can be evaluated from the pressuremeter volume curve as can be seen in Fig. 1 A solution for interpreting the tangent modulus also presented [], the shear modulus can be predicted by plotting the applied pressure versus the strain ϵ o,the values of can be evaluated by considering the slope of the tangent to the curve at ϵ o = where ϵ o represents the radial strain = 1/( d/d ϵ o ) at ϵ o = (5) The Young s modulus E may in turn be derived using E =(1+ν ) () Such a curve - ϵ o to evaluate the shear modulus can be seen in Fig. 3. RESSUREETER TESTS RESULTS The results of enard presuremeter tests been used to evaluate the elastic modulus, the pressuremeter tests results that carried out in four boreholes in Abu Dhabi been used in present research with different depths, the soil can be classify as poorly graded sand with silt.three methods for evaluation the elastic modulus were used in present research, these methods are as follow: 1- enard ethod - ibson and Anderson ethod 3- almer ethod Volume Cm3 5 3 1 (KN/m) Fig.1 ressure-volume curve BH.No.1 depth.3 ressure kn/m 35 3 5 15 1 5... ϵ o Fig. ressure - ϵ o curve for Bh.No.1 depth.3. RESULTS AND DISCUSSIONS enard pressure meter test results were evaluated using three methods of analysis to explore the elastic modulus. Fig.3 shows the results of the pressuremeter modulus with depths for BH.No.1, using three methods of analysis (enard method, ibson and Anderson method and almer method). There are distinctive variations in the values of the pressuremeter modulus that deduced from different methods for the same tests,it is quite clear that the values of the elastic modulus obtained using ibson and Anderson method are higher than those evaluated using enard and almer ethods. ibson and Anderson method showed higher values of elastic modulus than those obtained from enard method, the increase ranged from 17% to 3% for the same tests. ibson and Anderson also showed increases in the values of the elastic modulus than those 17

Int. J. of EOATE, Feb., 1, Vol. 1, No. 1 (Sl. No. 19), pp. 175-179 interpreted using almer method, the increase ranged from 5% to 75% for the enard method for evaluation the elastic modulus also predicts values higher than those obtained from almer method the increase ranged from % to % for the 1 1 5 1 15 Fig.3 Variations of E with depth using different methods of analysis for BH.No.1 (: ibson and Anderson, : almer, : enard) Fig. shows the results of the pressuremeter modulus for BH.No., three method of analysis been utilized as follows: 1- enard ethod - ibson and Anderson ethod 3- almer ethod Elastic modulus kn/m 1 1 1 Elastic modulus kn/m Fig. Variations of E with depth using different methods of analysis for BH.No. The results showed differences in the values of the elastic modulus that deduced from different methods for the same tests,as can be seen in Fig., the values of the pressuremeter modulus obtained using ibson and Anderson method are higher than those evaluated using enard and almer ethods. ibson and Anderson method showed higher values of pressuremeter modulus than those obtained from enard method, the increase ranged from 7% to 33% for the ibson and Anderson also showed increases in the values of the modulus than those interpreted using almer method, the increase ranged from 7% to 71% for the enard method for evaluation the modulus also predicts values higher than those obtained from almer method the increase ranged from 5% to 5% for the Fig.5 shows the results of pressuremeter modulus with depth using the same three methods of analysis for BH.3. ibson and Anderson method showed higher values of pressuremeter modulus than those obtained from enard method, the increase ranged from 3% to 3% for the ibson and Anderson also showed increases in the values of the pressuremeter modulus than those interpreted using almer method, the increase ranged from 37% to % for the enard method for evaluation the pressuremeter modulus also predicts values higher than those obtained from almer method the increase ranged from 3% to 71% for the Fig. shows the results of the pressuremeter modulus with depth for BH., the results also evaluated by the three methods of interpretation. ibson and Anderson method predicted values of pressuremeter modulus higher than enard method, the increase ranged from 1% to % for the ibson and Anderson also showed values of pressuremeter modulus higher than those evaluated almer method, the increase ranged from % to % for the 1 1 Elastic modulus kn/m Fig.5 Variations of E with depth using different methods of analysis for BH.No.3 177

Int. J. of EOATE, Feb., 1, Vol. 1, No. 1 (Sl. No. 19), pp. 175-179. 3.5 3.5 1.5 1.5 5 1 15 Fig. Variations of E with depth using different methods of analysis for BH.No. enard method also predicted values of pressuremeter modulus higher than those obtained from almer method the increase ranged from3% to % for the The results of pressure meter showed distinctive discrepancies when evaluated with three methods of evaluations for the same tests i.e. ibson and Anderson method, enard method and almer method, for the four boreholes, the values of the pressuremeter modulus deduced from ibson and Anderson method are higher than those deduced from enard method and almer method for the same tests. The lowest values of elastic modulus those predicted from almer method. almer method may considered as the most reliable method to predict the values of the pressuremeter modulus due to the fact that a complete stress-strain curve can be obtained and the method is free from the assumption that the soil is elastic perfectly plastic as the other methods exist in their assumptions of analysis. 5. CONCLUSIONS Elastic modulus kn/m The in-situ pressure meter test is a unique method to predict the soil modulus directly.the evaluation and interpretation of the elastic modulus from enard pressuremeter tests using different methods are investigated some essential conclusions may drawn from the present research as follows: 1. Three methods of interpretations of the elastic modulus for pressuremeter testing been used,these are : (a) enard ethod (b) ibson and Anderson ethod (c) almer ethod The three methods predicted distinctive discrepancies in modulus values for the. The results of enard pressuremeter tests from four boreholes been evaluated using the three methods of interpretation of the pressuremeter modulus, the results explored values of the pressuremeter modulus deduced from ibson and Anderson method are higher than those evaluated from enard method,the increase ranged from 3% to 3% for the same tests 3. The values of the pressuremeter modulus predicted using ibson and Anderson method for the four boreholes showed higher values than those evaluated using almer method the increase ranged from 5% to % for the. enard method for evaluating the pressuremeter modulus also predicted values higher than those interpreted using almer method, the increase ranged from % to % for the 5. almer method although predicts the lowest values of the pressuremeter modulus can be considered as the most reliable method, where complete stress-strain curves can be obtained for determining the elastic modulus. 7. REFERNCES [1] arcil L, Sedran and Failmezger R, Values of ressuremeter odulus and Limit ressure Inferred From Stress or Strain Controlled ressuremeter Testing 7th international Symposium on ressuremeter,tunis, 15. [] Alzubaidi R, Effect of Changing the Rate of Strain of ressuremeter Testing on Undrained arameters 7th international Symposium on ressuremeter,tunis, 15. [3] Robbins D, Initial Elastic odulus Degradation Using ressuremeter and Standard enetration Test Results at Two Sites. Sc thesis, College of Engineering, University of Nevada, Las Vegas, 13. [] Cheshomi A and hodrati, Estimating enard pressuremeter modulus and limit pressure from ST in silty sand and silty clay soils. A case study in ashhad, Iran. eomechanics and eoengineering: An International Journal,Volume 1, Issue 3, 15. 17

Int. J. of EOATE, Feb., 1, Vol. 1, No. 1 (Sl. No. 19), pp. 175-179 [5] Lame, Lecons le Thorie de la l Elasticitie, authier Villars aris, 15. [] énard L, esures in situ des propriétés physiques des sols. Annales des onts et Chaussées l.3 :357-37, 1957. [7] ibson R and Anderson W, In-situ measurement of soils properties with the pressuremeter, Civ. Engng. ubl. Wks. Rev. 5: 15-1, 191. [] almer A, Undrained lane Strain Expansion of Cylindrical Cavity in Clay; Simple Interpretation of ressuremeter Test, eotechnique,,57-51, 197. Int. J. of EOATE, Feb., 1, Vol. 1, No. 1 (Sl. No. 19), pp. 175-179. S No.9 received on Aug.31, 15 and reviewed under EOATE publication policies. Copyright 1, International Journal of EOATE. All rights reserved, including the making of copies unless permission is obtained from the copyright proprietors. ertinent discussion including authors closure, if any, will be published in Feb. 17 if the discussion is received by Aug. 1. Corresponding Author: Radhi Alzubaidi 179