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Home My WebLink About; Broccato at Batiquitos Shores; As-Graded Geotechnical Report; 1996-11-07Geotechnics Incorporated November 7, 1996 Brookfield Davidson Homes 12865 Pointe Del Mar, Suite 200 San Diego, California 92014 Principals: Anthony F. Belfast Michael P. Imbriglio W, Lee Vanderhurst Project No. 0002-008-03 Document No, 6-0461 Attention: Mr. Dale Gleed SUBJECT: AS-GRADED GEOTECHNICAL REPORT Broccato at Batiquitos Shores Carisbad, Califomia Gentlemen: This report summarizes the results of the observation and testing services provided during the earthwork construction of the Broccato at Batiquitos Shores development. In our opinion, the grading and compaction was performed in general accordance with the intent of the project geotechnical recommendations and with the requirements of the City of Carisbad. We appreciate this opportunity to provide professional services. If you have any questions or comments regarding this report or the services provided, please do not hesitate to contact us. Respectfully submitted, GEOTECHNICS INCORPORATED W. Lee Vanderhurst C.E.G. Principal DR/RAT/WLV/AFB Distribution: (5) Addressee 9951 Business Park Ave., Ste. B • San Diego Califomia • 92131 Phone (619) 536-1000 • Fax (619) 536-8311 AS-GRADED GEOTECHNICAL REPORT Broccato at Batiquitos Shores Carisbad, Califomia TABLE OF CONTENTS 1.0 INTRODUCTION 2.0 SCOPE OF SERVICES ^ 3.0 SITE DESCRIPTION 2 4.0 PROPOSED DEVELOPMENT 2 5.0 GEOLOGIC CONDITIONS 3 5.1 Torrey Sandstone ^ 5.2 Terrace Deposits ^ 5.3 Alluvium ^ 5.4 Colluvium ^ 5.5 Documented Fill ^ 5.6 Groundwater ^ 5.7 Seismicity ^ 6.0 SUMMARY OF GRADING OPERATIONS 5 6.1 Preparation of Existing Ground 5 6.2 Fill 6 6.3 Cut and Fill Slopes 6 6.4 Backdrains ® 7.0 LABORATORY TESTING 6 8.0 FIELD DENSITY TESTING 7 9.0 GEOTECHNICAL EVALUATION AND RECOMMENDATIONS 7 9.1 Fill Compaction ^ 9.2 Slope Stability 8 9.3 Site Drainage ^ 9.4 Settlement Monitoring ^ 9.5 Foundations ''^ 9.5.1 Post-Tensioned Slabs 10 9.5.2 Lateral Resistance 9.5.3 Slope Setback "t"* 9.5.4 Moisture Protection for Slabs 11 9.6 Exterior Slabs 11 9.7 Earth Retaining Structures 11 10.0 UMITATIONS 12 APPENDICES Appendix A References Appendix B Laboratory Testing Appendix C Density Test Results AS-GRADED GEOTECHNICAL REPORT Broccato at Batiquitos Shores Carisbad, Caiifomia 1.0 INTRODUCTION This report summarizes the results of the testing and observation services provided during the earthwork construction of Broccato at Batiquitos Shores. The purpose of the observation and testing services was to evaluate the conformance of the earthwork construction with the geotechnical recommendations and the project plans and specifications. Our services were provided in accordance with our Proposal No. 6-126 (Geotechnics Incorporated, 1996a), and Brookfield Davidson Homes' Contract No. A1410. 2.0 SCOPE OF SERVICES Field personnel were provided for this project to observe the grading of the site and conduct field density tests. The observation and testing assists us in developing professional opinions regarding the earthwork construction. Our services did not include supervision or direction of the actual work of the contractor, his employees, or agents. Our services included the following: Laboratory testing to determine pertinent engineering characteristics of the soils used in the fills and exposed at finished grade. The results are summarized in Appendix B. Observation ofthe geologic conditions exposed during excavation and grading ofthe site. On-site engineer/geologist was provided to evaluate slope stability conditions and provide recommendations to improve slope stability. The geologic mapping is compiled on the Geotechnica! Maps, Plates 1 through 4. Observation and testing of fill placement during the site grading. Daily field reports were prepared summarizing the observed earthwork operations. Test results are summarized in Appendix C. Installation of settlement monuments in areas where alluvium was not completely removed, and monitoring and evaluation of the on-site settlement. Geotechnics Incorporated Brookfield Davidson Homes Broccato at Batiquitos Shores November 7, 1996 Project No. 0002-008-03 Document No, 6-0461 Page No. 2 Preparation of this report which summarizes our observations and test results, our conclusions regarding the earthwork construction and site condilions, and recommendations regarding foundation, slab, and pavement section design. 3.0 SITE DESCRIPTION Broccato at Batiquitos Shores is located off of Baliquitos Drive in Carisbad, California as shown on the Site Locaiion Map, Figure 1. The site encompasses roughly 40 acres on the north shore of Batiquitos Lagoon. The site is bound by Baliquitos Lagoon and a sewer pump station to the south, open space to the east and west, and by a residential neighborhood and Batiquitos Drive to the north. The site's topography originally consisted of a generally north-south trending drainage canyon with moderately steep slopes to the east and west. Secondary drainages incised the slopes. Elevations ranged from approximately 12 feet above mean sea level (MSL) at the southern end of the site, to approximately 154 feet MSL at the northeastern comer of the site. Existing improvements at the site included a paved access road to the lagoon and pump station, a storm drain along the west side of the road, a force sewer main from the pump station, and a water main and utility easement that crossed the site from east to west near the centra! portion of the site. The northeastern part of the site also included some previously graded areas and a large stockpile of soil. 4.0 PROPOSED DEVELOPMENT The Broccato project will include the constnjction of 73 single-family homes along residential streets, with open space along much ofthe perimeter. The pads are generally separated by short retaining walls or slopes that are generally less than 10 feet high although slopes up to 30 feet high also exist between parallel streets. Natural slopes and constructed slopes up to 30 feet high border the east and west sides of the development. ii The project includes large areas of open space. The open space has been partitioned and given lot numbers which are Lots 49, 50, 61, 62, and 77 through 81. The residential lots are numbered 1 through 48, 51 through 60, and 63 through 76. Geotechnics Incorporated Brookfield Davidson Homes Broccato at Batiquitos Shores November 7, 1996 Project No, 0002-008-03 Document No. 6-0461 Page No. 3 The improvements include the re-alignment of Batiquitos Drive and the construction of seven cul- de-sacs, abandonment of an existing water line, and the construction of a storm drain system. The cul-de-sacs are named Gabianno Lane, Cigno Court. Piovana Court, Merio Court, Grivetta Court, and Anatra Court. A de-silting basin was to be constnjcted at the south end of the site; however, this structure was not constructed at the time of this report. Development of the site also included the construction of retaining walls between pads and in rear yards at the base of slopes. The walls were generally less than 7 feet high. 5.0 GEOLOGIC CONDITIONS The subject site is situated in the coastal plain section of the Peninsular Range Province, and is primarily underiain by Cenozoic sedimentary bedrock materials and surficial deposits. Specifically, the site is underiain by the Eocene-age Torrey Sandstone, Quaternary-age terrace deposits, alluvial and colluvial soil, and compacted fill soil. The approximate as-graded geologic conditions are depicted on the attached As-Graded Geotechnical Map, Plates 1 through 3. 5.1 Torrev Sandstone As observed at the site, the Torrey Sandstone consisted of pale gray and yellow brown, silty, fine- to medium-grained sandstone. In general, the sandstone was moderately cemented and massive. Occasional concretions of strongly cemented material were encountered. The Torrey Sandstone was exposed at the base of the slopes along the western and eastern sides of the site, and at finish grade in Lots 72 through 75. The Tortey Sandstone likely underiies the entire site at depth. 5.2 Terrace Deposits Terrace deposits were exposed in the upper portions of the slopes along the westem and eastem sides of the site, and in the cut slope along the northeastem corner of the site. As observed in the excavations, the terrace deposits consisted of orange-brown, clayey fine- to medium-grained sandstone with some gravels at the base of the formation. The sandstone was generally weakly to moderately cemented and massive. Geotechnics Incorporated m m m Brookfield Davidson Homes ^^f^' No. 0002-008-03 Broccato at Batiquitos Shores Document No. 6-0461 November 7. 1996 ^. Page NO. A 5.3 Alluvium Alluvial soils underiie much of the site. The alluvium was left in place where the groundwater table made removal impractical. As observed by the grading, the alluvium consisted of brown to dark brown, silty to slightly silty, fine to medium grain sand. The alluvium was generally loose to medium dense. 5.4 Colluvium Colluvial soils were exposed in the slopes sun-ounding the project. The colluvium consisted of reddish brown, silty fine sand that was generally loose and dry. Colluvial soils were removed from areas that were to receive fill and structura! loads. 5.5 Documented Fill Documented fill was encountered in the northeastern portion of the site. Fil! was originally placed under the observation and testing of ICG Incorporated in 1991 along the re- alignment of Batiquitos Drive. More grading was performed in 1994 under the observation of Geotechnics (1995). The materials used in the fill were derived primarily from excavations in the property east of the Broccato project, and consisted primarily of silty sand. Stockpiled soil also existed at the site in the area of Lots 3 through 15. This material also originated primarily from excavations east of the site. The stockpiled material was removed and re-used as fill material during the finat grading of the subject site. 5.6 Groundwater Groundwater was encountered during the removal of alluvial soils. The water table was at an approximate elevation of 5 feet MSL at the southern end of the site, and at an approximate elevation of 20 feet MSL near the intersection of Batiquitos Drive and Gabbiano Lane. Groundwater seepage was also observed in the slope behind Lot 72 at the contact between the underiying terrace deposit and the overiying colluvium. Geotechnics Incorporated 0 Brookfield Davidson Homes Broccato at Batiquitos Shores November 7, 1996 Project No. 0002-008-03 Documenl No. 6-0461 Page No. 5 5.7 Seismicity Several faults were observed in the Eocene-age sandstone during the grading ofthe site. Theses faults, however, did not offset the overiying colluvium. and accordingly, are not considered active. The active fault nearest to the site is the Rose Canyon fault located approximately 2 miles to the west. A magnitude 6.5 earthquake on the Rose Canyon fault could result in peak horizontal bedrock accelerations of approximately 0.48g. 6.0 SUMMARY OF GRADING OPERATIONS In general, the earthwork consisted of the grading of the house pads, slopes, and street subgrades. The site grades are shown on the Geotechnical Map. Plates 1 through 4. The project grading plans, prepared by O'Day Consultants (1990). serve as base maps for the Geotechnical Map. Grading was performed by C.E. Wilson Corporation. Typical cut and fill mass grading techniques were employed using heavy earth-moving equipment. Site grading began with the removal of deleterious materials and loose surficial soils. Fill soils were placed to bring areas up to design grades, and individual lots were graded. 6.1 Preparation of Existino Ground The site was cleared of surface obstructions and stripped of vegetation. Existing loose and unsaturated surficial soils were removed to expose competent bedrock materials, fill soils placed during previous grading, or alluvial soils saturated by a standing water table. Existing utilities that were to be abandoned, and the existing access road, were removed and replaced with compacted fill. The stockpiled material previously placed on the site was used in compacted fills. Where transitions between bedrock and fill crossed building pads, the bedrock portion of the lot was over-excavated approximately 3 feet deep, and brought back to planned grade with compacted fill. Lots 65 and 71 were over-excavated to reduce the potential of differential settlement due to cut/fill transitions. Geotechnics Incorporated m Brookfield Davidson Homes ^'ojeci No. 0002-008-03 Broccato at Batiquitos Shores Document No. 6-0461 November 7, 1996 ^^9^ ^ The approximate limits of removals, and the approximate elevation of the bottom of the removals, are indicated on the Geotechnica! Map. Prior to placing fill, the exposed surfaces were scarified to a depth of 6 to 8 inches, brought to approximately optimum moisture content, and compacted. 6.2 Fil! Fil! soils for site grading were typically placed in 6- to 8-inch thick lifts, brought to approximate optimum moisture content, and compacted by the equipment delivering, watering, or mixing the soil. The equipment used for compaction consisted of rubber-tired compactors, bulldozers, blades, water trucks, and scrapers. 6.3 Cut and Fill Slopes Slopes up to 30 feet in height were constructed in general accordance with the project plans and specifications at a slope ratio of 2:1 (horizontal to vertical). Much of the slopes along the east and west sides of the site were over-excavated to remove exposed loose surficial soils such as colluvium. The upper portion of the slope behind Lot 72 was also over-excavated. The slopes were re-constructed with fill soils and backdrains to reduce the potential for seepage through the slope faces, and to act as a buttress against the loose colluvial soils. Fill slopes were back-rolled and track-walked at finished grade. 6.4 Backdrains Backdrains were constructed beneath the buttressed slopes. The drains consisted of two- sided filter fabric, approximately 6 feet in height, that were placed against the over-excavated slope at an elevation approximately 2 feet below and 4 feet above the finish toe of slope. The fabric was wrapped around perforated PVC pipes which were connected to the on-site storm drain system. However, the subdrains on Lot 72 and at the desilting basin were not tied-in to an outlet at the time of this report. 7.0 LABORATORY TESTING The various materials used as fill are described in Figure B-1 of Appendix B. "Laboratory Testing". The maximum density and optimum moisture content of the soil types used as fill were Geotechnics Incorporated 1 p Brookfield Davidson Homes Broccato at Batiquitos Shores November 7. 1996 Project No, 0002-008-03 Documenl No. 6-0461 Page No. 7 determined in the laboratory by ASTM method D1557-91 (Modified Proctor). The fills generally consisted of fine- to medium-grained sand, silty sand, and clayey sand. To evaluate materials for conformance with project specifications, expansion index testing was conducted on representative samples collected from the finish-graded pads. ASTM test method D4829 was used to evaluate the expansion index. The results ofthe expansion index testing are presented on Figure B-2 of Appendix B. The results of the tests indicate expansion potentials ranging from very low to medium. 8.0 FIELD DENSITY TESTING In-place moisture and density tests were made in accordance with ASTM D2922-91 and D3017- 88 (Nuclear Gauge Method). The results of the tests conducted during this phase of mass grading of Broccato are tabulated in Figures C-1 through C-12 of Appendix C, "Field Density Test Results". Appendix C presents the relative compaction of the fill as compared to the respective maximum density (ASTM Dl 557-91). The density testing conducted on the previously documented fills is presented in the referenced reports (ICG, 1991; Geotechnics, 1995). The locations and elevations indicated for the tests presented on the Geotechnical Map are based on field survey stakes and estimates from the grading plan topography, and should only be considered rough estimates. The estimated locations and elevations should not be utilized for the purpose of preparing cross sections showing test locations, or in any case, for the purpose of after-the-fact evaluating of the sequence of fill placement. 9.0 GEOTECHNICAL EVALUATION AND RECOMMENDATIONS In our opinion, grading and compaction was performed in general accordance with the intent of the project geotechnical recommendations (San Diego Soils Engineering, 1986), and with the requirements of the City of Carisbad. The conclusions and recommendations contained herein are based on the observations and testing perfonned between June 25. 1996. and October 28. 1996. No representations are made as to the quality and extent of materials not observed. 9.1 Fill Compaction Geotechnics Incorporated ip m Brookfield Davidson Homes Project No. 0002-008-03 Broccato al Batiquitos Shores Document No. 6-0461 November 7, 1996 Page No. 8 Based upon our observations and testing, it is our professional opinion that fill soils were placed in accordance with the compaction criteria of 90 percent of the maximum density as determined by ASTM D1557-91. Where field testing indicated less than 90 percent relative compaction, the pertinent fill soils were reworked to achieve the specified compaction. 9.2 Slope Stabilitv Fill and cut slopes were constructed to heights up to 30 feet. Slope stability was evaluated based on the referenced geotechnical investigation (San Diego Soils Engineering, 1986), and site observations of conditions exposed during grading. In general, slopes should be stable with regard to deep-seated failure with a factor of safety of at least 1.5. Slope analysis was based on our best estimate of the prevailing geologic conditions, groundwater conditions and soil strength characteristics. It should be realized that site conditions can be complex and variable due to changes in stratigraphy, geologic structure, and changes in groundwater. It is possible that conditions can differ from those anticipated in our analysis. In addition, cuts or retaining walls constructed at the toe of slopes could decrease slope stability. Any changes to constructed slope heights, ratios, retaining walls, or addition of surcharge should be evaluated by the geotechnical consultant. Man-made and natural slopes will weather over time as a result of wetting and drying, biologic forces and gravity. As a result, the outer 5 feet of slope face may undergo minor down-slope creep over the years. While it is not possible to completely eliminate this effect, it can be minimized by establishing deep-rooted vegetation on the slope, maintaining the drainage pattems established during construction, and by rodent control. We recommend vegetation which is adapted to semi-arid climates, therefore requiring minimal irrigation. 9.3 Site Drainage Foundation and slab performance depends greatly on how well the runoff waters drain from the site. This is true both during construction and over the entire life of the structure. The ground surface around structures should be graded so that water flows rapidly away from the structures without ponding. The surface gradient needed to achieve this depends Geotechnics Incorporated • Brookfield Davidson Homes P^^^cl No. 0002-008-03 Broccato at Batiquitos Shores Document No. 6-0461 November 7. 1996 ^^^^ ^ on the prevailing landscape. In general, we recommend that pavement and lawn areas within five feet of buildings slope away at gradients of at least two percent. Densely vegetated areas should have minimum gradients of at least five percent away from buildings within five feet of the structure's perimeter. Densely vegetated areas are considered those in which the planting type and spacing is such that the flow of water is impeded. Planters should be built so that water from them will not seep into the foundation, slab, or pavement areas. Site irngation should be limited to the minimum necessary to sustain landscaping plants. Should excessive irngation, water line breaks, or unusually high rainfall occur, saturated zones or "perched" groundwater may develop in fill soils. This condition may result in excessive moisture migration into and through foundations and slabs. Damage to landscape may also occur. 9.4 Settlement Monitoring Consolidation of the alluvium due to the weight of the planned fill was monitored during fill placement and evaluated using settlement monuments. The settlement monuments consisted of 24-inch-square steel plates with y4-inch-diameter iron pipe extensions. The pipe was added as the fill placement progressed upward. The tops of the pipes were surveyed by O'Day Consultants on a regular basis and provided to us for our review. The approximate locations of the settlement monuments are presented on the Geotechnical Maps. Plates 1 through 4. Preliminary estimates by San Diego Soils Engineering. Inc. (1986) of the alluvial settlement was on the order of up to 5 inches. Based on the settlement data obtained during grading, settlement of up to approximately ^-'A inches was observed in Monument 1 located in Lot 42. Settlement of about 1 to 2-72 inches was measured in Monuments 2 through 7. Monument 4 currently shows about 4 inches of settlement. The settlement data is presented on Figures 2.1 through 2.8, Settlement Monument Data. Based on the settlement data, it appears the areal settlement is essentially complete. The amount of settlement measured during grading is within the amounts estimated in the preliminary geotechnical investigation. Future settlement may occur in addition to the measured values. The amount of future settlement depends on the amount of irrigation Geotechnics Incorporated m m IP „ ,, Project No. 0002-008-03 Brookfield Davidson Homes Document No, 6-0461 Broccato at Batiquitos Shores p November 7. 1996 . '•— by the homeowners. Structures should be designed for the settlement values given in Section 9.5.1. 9.5 Foundations The following recommendations are based on our testing and observation ofthe grading, the laboratory testing of the soil near finish grade, and are considered generally consistent with methods typically used in southem Califomia. Other altematives may be available. The foundation recommendations herein should not be considered to preclude more restrictive criteria of goveming agencies or by the structural engineer. The design of the foundation system should be performed by the project structural engineer incorporating the geotechnical parameters described in the following sections. In general, the expansion index testing indicated that the soils exhibit very low and low expansion potential except for Lots 69 and 70 which exhibited a medium expansion potential. The following parameters assume an expansion index of less than 90, and that the structure will be founded either entirely on compacted fill or entirely on relatively undisturbed formational material. We understand that post-tensioned slabs will be used at each of the lots. 9.5.1 Post-Tensioned Slabs For design of post-tensioned slabs, a bearing value of 2,000 pounds per square foot and a differential settlement value of I-V2 inches may be used for design. A one-third increase in the bearing value may be used for short term wind and seismic loading. A minimum footing embedment depth of 18 inches below the lowest adjacent grade should be provided. 9.5.2 Lateral Resistance Lateral loads against strtictures may be resisted by friction between the bottoms of footings or slabs and the supporting soil. A coefficient of friction of 0.3 is recommended. Altematively. a passive pressure of 300 pcf is recommended for the portion of vertical foundation members embedded into formational soil. If friction and passive pressure are combined, the passive pressure value should be reduced by one-third. Geotechnics Incorporated Brookfield Davidson Homes Project No. 0002-008-03 Broccato at Batiquitos Shores Document No. 6-0461 November 7, 1996 Page No. 11 9.5.3 Slope Setback Footings on slopes should be founded at a depth such that the distance between the lower outside edge of the footing and the face of any slope is at least 5 feet. 9.5.4 Moisture Protection for Slabs Concrete slabs constructed on soil ultimately cause the moisture content to rise in the underiying soil. It is our understanding that the planned moisture protection for slabs on grade is to consist of 2 inches of sand, over a 6-mil visqueen vapor barrier. It has been our experience that such systems will transmit from approximately 6 to 12 pounds of moisture per 1000 square feet per day. It is our opinion that soil conditions do not exist that would preclude the use of the indicated moisture protection on this project. It should be recognized, however, that this system relies entirely on the integrity of the visqueen membrane. Accordingly, care should be taken to protect the visqueen against all punctures and to provide adequate overiap at all seams. To further reduce the amount of moisture migration, we recommend placing a 4-inch thick layer of coarse sand over the visqueen. 9.6 Exterior Slabs Reinforcement and the use of crack control joints should help control random cracking and differential movement. Slabs should be at least 4 inches in thickness and should be reinforced with at least 6-inch by 6-inch, W1.4 by W1.4 welded-wire fabric. Slabs may bear directly on compacted subgrade. Crack control joints should be provided on at least 5-foot centers each way. 9-7 Earth Retaining Structures Retaining walls should be backfilled with material exhibiting a low expansion potential, less than 35 as evaluated by UBC Standard 29-2 (Expansion Index test). Materials exhibiting a greater expansion potential would increase the lateral pressures beyond design values. The following design parameters for earth retaining structures are provided assuming backfill with a low potential for expansion. Geotechnics Incorporated Brookfield Davidson Homes Broccato at Batiquitos Shores November 7, 1996 Project No, 0002-008-03 Document No, 6-0461 Page No, 12 Equivalent Fluid Pressure with level backfill: Equivalent Fluid Pressure with 2:1 sloping backfill: Allowable Soil Bearing: Passive Pressure: Coefficient of Friction, soil to concrete: 35 Ibs/ft' 45 Ibs/ft' 2.000 Ibs/ft^ 300 Ibs/ft' 0.3 ii The equivalent fluid pressures are based on the active soil stale, assuming the walls are free to rotate at least 1 percent of the wall height. The pressures do not include surcharge loads, hydrostatic pressure, or seepage forces. Walls should be fully drained to prevent hydrostatic or seepage pressures. When combining passive pressure and friction for passive resistance, the passive pressure should be reduced by one-third. It has been our experience that site retaining walls frequently develop high moisture or free water in the backfill due to heavy irrigation that commonly occurs in subdivisions. This leads to problems such as efflorescence on the face of the wall and spalling of stucco finishes. To decrease such problems, it is suggested that walls be moisture- proofed on the positive side in addition to having a back-drain. Retaining wall backfill should be compacted to at least 90 percent relative compaction (ASTM D1557-91). Backfill should not be placed until walls have achieved adequate structural strength. Heavy compaction equipment which could cause distress to walls should not be used. Temporary excavations in compacted fill greater than 4 feet in height should be no steeper than 1:1 (horizontal to vertical). Temporary excavations in formational materials should be no steeper than %:1. 10.0 UMITATIONS Our services were performed using the degree of care and skill ordinarily exercised, under similar circumstances, by reputable soils engineers and geologists practicing in this or similar localities. No other warranty, expressed or implied, is made as to the conclusions and professional advice included in this report. The samples taken and used for testing, the observations made and the in-place field testing performed are believed representative of the project; however, soil and geologic conditions can vary significantly between tested or observed locations. Geotechnics Incorporated Brookfield Davidson Homes Broccato at Batiquitos Shores November 7, 1996 Project No. 0002-008-03 Document No. 6-0461 Page No. 13 This report is issued with the understanding that it is the responsibility of the owner, or of his representative, to ensure that the information and recommendations contained herein are brought to the attention of the architect and engineer for the project and incorporated into the plans, and the necessary steps are taken to see that the contractor and subcontractors carry out such recommendations in the field. As in most major projects, conditions revealed by excavation may be at variance with preliminary findings. If this occurs, the changed conditions must be evaluated by Geotechnics Incorporated and designs adjusted as required or altemate designs recommended. Although our observations and testing did not reveal deficiencies, we do not guarantee the contractor's work, nor do the services provided by Geotechnics relieve the contractor of responsibility in the event of subsequently discovered defects in his work. The findings of this report are valid as of the present date. However, changes in the conditions of a property can occur with the passage of time, whether they be due to natural processes or the works of man on this or adjacent properties. In addition, changes in applicable or appropriate standards may occur, whether they result from legislation or the broadening of knowledge. Accordingly, the findings ofthis report may be invalidated wholly or partially by changes outside our control. Therefore, this report is subject to review and shouid not be relied upon after a period of three years. GEOTECHNICS INCORPORATED Robert A. Torres, P.E. C 43077 Senior Engineer W. Lee Vanderhurst, C.E.G. 1125 Principal Anthony F. Belfast, P.E. C 40333 Principal Geotechnics Incorporated