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Home My WebLink About93-1019-7; Carlsbad Seapointe Resort Addition-Continental; Carlsbad Seapointe Resort Addition; 1997-01-27GEOTECHNICAL INVESTIGATION CARLSBAD SEAPOINTE RESORT ADDITION CARLSBAD, CALIFORNIA PREPARED FOR CONTINENTAL COMMERCIAL CORPORATION CARLSBAD, CALIFORNIA JANUARY 1997 GEOCON INCORPORATED GEOTECHNICAL CONSULTANTS Project No. 05343-12-04 January 27, 1997 Continental Commercial Corporation 5050 Avenida Encinas Suite 200 Carlsbad, California 92008 Attention: Mr. Tim J. Stripe Subject: Gentlemen: CARLSBAD SEAPOINTE RESORT ADDITION CARLSBAD, CALIFORNIA GEOTECHNICAL INVESTIGATION In accordance with our letter entitled Change Order Proposal for Geotechnical Investigation, dated November 18, 1996, and your authorization, we have performed a geotechnical investigation for the subject development. The accompanying report presents the findings from our study and our conclusions and recommendations based on those findings. It is our opinion that the site may be developed as proposed, provided that the recommendations of the accompanying report are followed. If you have any questions regarding this report, or if we may be of further service, please do not hesitate to contact the undersigned at your convenience. Very truly yours, GBOCON (6) Addressee 6960 Flanders Drive • San Diego, California 92121-2974 • Telephone (619) 558-6900 • Fax (619) 558-6159 TABLE OF CONTENTS 1. PURPOSE AND SCOPE 1 2. SITE AND PROJECT DESCRIPTIONS 1 3. SOIL AND GEOLOGIC CONDITIONS 2 4. GROUNDWATER 2 5. GEOLOGIC HAZARDS 2 5.1. Landslides 2 5.2. Faulting and Seismicity 3 5.3. Liquefaction 4 6. CONCLUSIONS AND RECOMMENDATIONS 5 6.1. General 5 6.2. Soil and Excavation Characteristics 5 6.3. Grading 6 6.4. Slope Stability 7 6.5. Temporary Excavations 7 6.6. Foundations 7 6.7. Concrete Slabs 8 6.8. Retaining Walls and Lateral Loads 9 6.9. Reactive Soil Characteristics 11 6.10. Site Drainage 11 6.11. Foundation Grading and Plan Review 12 LIMITATIONS AND UNIFORMITY OF CONDITIONS MAPS AND ILLUSTRATIONS Figure 1, Vicinity Map Figure 2, Site Plan Figure 3, Wall Drain Detail - Basement Retaining Walls Figure 4, Wall Drain - Exterior Retaining Walls APPENDIX A FIELD INVESTIGATION Figures A - 1 - A - 2, Logs of Borings APPENDIX B LABORATORY TESTING Figure B-l, Gradation Curve GEOTECHNICAL INVESTIGATION 1. PURPOSE AND SCOPE This report presents the results of a geotechnical investigation for the proposed addition to the Carlsbad Seapointe Resort, located in Carlsbad, California (Vicinity Map, Figure 1). The purpose of the investigation was to collect and evaluate soil and geologic data and provide recommendations pertinent to the geotechnical aspects of site development. The scope of the investigation consisted of a geologic reconnaissance and the drilling of 2 small- diameter, exploratory borings. Relevant soil and geologic literature concerning the site were reviewed. The literature review included site investigation reports previously authored by Geocon Incorporated regarding adjacent property entitled Limited Site Investigation for Seapointe Resort, Carlsbad, California, dated June 10, 1994, and Geotechnical Investigation for Carlsbad Seapointe Resort, Carlsbad, California, dated January 18, 1995. A portion of the plan entitled Tentative Map for Seapointe Resort, prepared by O'Day Consultants, dated August 2, 1996 (revised), was used as a base map for this report. Laboratory tests were performed on selected soil samples, collected during the investigation, to evaluate the pertinent physical properties of the foundation soil. Details of the field investigation and the laboratory testing are presented in Appendix A and B, respectively. The recommendations presented herein are based on an analysis of the data obtained from the field investigation, the results of the laboratory tests, our review of previously submitted reports, and experience with similar soil and geologic conditions. 2. SITE AND PROJECT DESCRIPTIONS •iThe site consists of approximately '/2 acre of undeveloped land located south of the existing Seapointe Resort development on the northeast corner of the intersection of Descanso Boulevard and Ponto Drive in Carlsbad, California. The site is bounded on the north by the existing multi-unit residential development, on the south by vacant, graded, building pads, and on the east by the railroad easement. The site slopes gently toward the east and is sparsely vegetated with weeds. It is understood that two multistory buildings are planned for the property. In general, the proposed structures are anticipated to be similar to the adjacent structures. It is therefore assumed that the proposed structures will also have underground parking. Project No. 05343-12-04 ~ January 27, 1997 Foundation plans were unavailable for our review; however, it is anticipated that conventional spread and/or isolated pads and continuous footings will be utilized. The Site Plan, Figure 2, depicts the existing configuration of the subject site, the approximate location of the proposed buildings and the approximate locations of the exploratory borings. If project details vary significantly from those outlined, Geocon Incorporated should be notified for review and possible revision of recommendations presented herein prior to final design submittal. 3 SOIL AND GEOLOGIC CONDITIONS As evidenced by the exploratory borings, the soils underlying the site generally consisted of sediments described as Quaternary Terrace Deposits. This formation is primarily composed of medium dense, damp to moist, light brown, silty to clayey, fine to medium sand with zones of cohesionless sand. The Terrace Deposits possess good bearing characteristics in either a natural or properly compacted condition; however, in order to provide a uniform soil support condition, it is recommended that the upper 1 to 2 feet of the Terrace Deposits be remediated during grading as recommended in section 6.1. Geocon Incorporated has encountered moderately cemented zones within the Terrace Deposits during site investigations for nearby projects. These zones, if encountered, may require heavier than normal ripping during mass grading and trenching operations. Based on our experience during construction of the existing development, clay soils are present within the area near the eastern property line. These soils were not encountered in the exploratory excavations for this study. The planned development for the addition, recommendations presented herein for foundations, and retaining walls should be reviewed and revised as necessary. 4 GROUNDWATER Groundwater was not encountered in either of the exploratory borings at the time of the investigation; however, during previous investigations of adjacent properties groundwater was encountered at a depth of approximately 43 feet to 45 feet below existing grade. Therefore, groundwater is not anticipated to impact project development as currently proposed. 5 GEOLOGIC HAZARDS 5.1. Landslides Based on a review of the aerial photographs and available geologic literature and our field investigation, no landslides were evident within the site and immediate adjacent areas. Project No. 05343-12-04 ~- January 27, 1997 5.2 Faulting and Seismicity Based on this field investigation, and review of aerial photographs and published geologic maps, the site is not located on any active or potentially active fault trace as defined by the California Division of Mines and Geology. The Rose Canyon Fault Zone and the Offshore Zone of Deformation, the closest known active faults, lie approximately 5 and 18 miles to the west, respectively. As shown on Table 5.2, a "maximum probable" earthquake of Magnitude 6.5 occurring on the Rose Canyon Fault could result in a peak site acceleration of approximately 0.30 g. Other active faults listed on Table 5.2 are more distant from the site and, hence, ground shaking from earthquakes on those faults will be less intense. It is our opinion that the site could be subjected to moderate to severe ground shaking in the event of a major earthquake along any of the above-mentioned faults; however, the seismic risk at the site is not considered significantly greater than the surrounding area. TABLE 5.2.* DETERMINISTIC SITE PARAMETERS FOR SELECTED FAULT Fault Name Rose Canyon Offshore Zone of Deformation Coronado Banks Fault Zone Elsinore San Diego Trough Newport - Inglewood Coyote Creek (San Jacinto) Casa Loma-Clark (San Jacinto) Gin. Helen-Lytle Cr-Clremnt Distance From Site (miles) 5 9 18 26 28 43 52 50 53 Maximum Credible Event Maximum Credible (Mag) 7.00 7.5 6.75 7.50 6.50 7.50 7.50 7.50 7.50 Peak Site Acceleration (g) 0.39 0.33 0.11 0.10 0.06 0.06 0.04 0.04 0.04 Maximum Probable Event Maximum Probable (Mag) 6.50 6.5 6.00 6.75 6.00 6.50 7.00 7.00 7.00 Peak Site Acceleration (g) 0.30 0.19 0.07 0.07 0.04 0.03 0.03 0.03 0.03 *Derived from Blake T. F. EQFAULT, Computer Program for Deterministic Prediction of Peak Horizontal Acceleration from Digitized California Faults, 1989, a, updated 1993. Project No. 05343-12-04 -3-January27, 1997 5.3 Liquefaction Liquefaction is a phenomenon in which loose, saturated, relatively cohesionless sands lose shear strength during strong ground motion. Groundwater was not encountered at the depths explored beneath the subject site and at adjacent sites groundwater was encountered at considerable depth below the existing and planned grades. Furthermore, the groundwater encountered beneath adjacent sites was present within the Santiago Formation, which is composed of dense sandstones and siltstones. Therefore, due to the geologic site conditions, particularly the lack of permanent near-surface groundwater, the potential for liquefaction occurring at the site is not considered to be a constraint to site development as proposed. Project No. 05343-12-04 - 4 - January 27, 1997 >»•>->• 6 CONCLUSIONS AND RECOMMENDATIONS 6.1. General 6.1.1. In our opinion, no soil, geological, or geotechnical conditions or constrains exist at the site which would preclude the development of the site as presently planned, provided that the recommendations of this report are followed. 6.1.2. The site is immediately underlain by Terrace Deposits generally composed of silty to clayey sand. In order to provide uniform soil support conditions, the surficial 1 to 2 feet will require remediation in areas of planned improvement. In addition, some zones of cohesionless and/or near-cohesionless sand deposits were encountered and will require remediation or special consideration during site development. The Terrace Deposits may also contain highly cemented zones which could require special handling during grading or trenching. In the event clay soils are exposed within the eastern edge of the site during construction, recommendations presented below for foundation wall design should be re- evaluated and revised if required. 6.1.3. Subsurface conditions observed may be extrapolated to reflect general soil/geologic conditions; however, some variations in subsurface conditions between boring locations should be anticipated. 6.2 Soil and Excavation Characteristics 6.2.1. Based on field observations, laboratory tests, and the review of reports for adjacent property the prevailing soils are anticipated to be comprised of "very low" to "low" expansive (El less than 50), silty or clayey, fine to medium sand and relatively clean cohesionless sand of the Terrace Deposits. The expansive character of the soil was defined in accordance with the Uniform Building Code (UBC) Table 18-I-B. Clays with and El of greater than 50 may be encountered along the eastern property line. 6.2.2. The cohesionless sand is generally unstable for excavations with slopes having an inclination in excess of 2:1 (horizontal:vertical). Special consideration will be required, especially during trenching or other excavations, where these soils are encountered. 6.2.3. The siltstones and sandstones of the Santiago Formation encountered during previous investigations of adjacent properties underlie the Terrace Deposits are not anticipated to be encountered during the grading operations. Project No. 05343-12-04 - 5 - January 27, 1997 6.2.4. Excavation of the Terrace Deposits should generally be possible with light to moderate effort with conventional, heavy-duty equipment. Based on our previous experience, moderately cemented zones may be encountered within the Terrace Deposits. Therefore, moderate to heavy effort should be anticipated for excavation in these zones, particularly, when trenching for foundations or utility installation. 6.3 Grading 6.3.1. Grading should be performed in accordance with the Recommended Grading Specifications contained in Appendix C and the City of Carlsbad Grading Ordinance. Where the recom- mendations of Appendix C conflict with this section of the report, the recommendations of this report section shall take precedence. 6.3.2. Site preparation should begin with the removal of all vegetation, pavement, concrete and other deleterious materials from areas of planned development. The material should be exported from the site. The upper portion of the Terrace Deposits should be removed and recompacted. Depth of removal is anticipated to be approximately 1 to 2 feet but may be deeper in some areas. All soils placed as fill should be properly moisture-conditioned and compacted to a minimum relative compaction of 90 percent, based on ASTM Test Procedure D1557-91 (Laboratory Compaction Characteristics Using Modified Effort}. 6.3.3. Prior to placing fill the base of the overexcavations should be scarified to a depth of at least 12 inches, moisture conditioned and compacted to a minimum relative compaction of 90 percent, at or slightly above optimum moisture content as defined by ASTM D 1557-91. 6.3.4. All fill material, including wall and trench backfill, greater than 12 inches thick should consist of low expansive (El less than 50), granular soil and be compacted to 90 percent relative compaction at or slightly above optimum moisture content as described by ASTM D 1557-91. 6.3.5. Pipe bedding and shading material should conform to civil design and/or agency specifi- cations. It is recommended that shading material placed under the haunches and to a level of just over the top of pipe consist of granular soils with a Sand Equivalent greater than 30. Project No. 05343-12-04 -6- January 27, 1997 6.4 Slope Stability 6.4.1. It is understood that there are no cut of fill slopes planned for this project; therefore, no slope stability analysis was performed. 6.5. Temporary Excavations 6.5.1. Temporary cut slopes excavated as a part of below-grade construction may, in general, be considered stable with an inclination of 1:1 (horizontal:vertical). This assumes near- cohesionless or cohesionless sands are not present within the excavated slope or within that zone just beneath the slope. For this condition, slopes should be flattened to at least 2:1 (horizontahvertical) or shallower. These 2:1 s-lopes are anticipated to relatively stable against deep-seated slope failures, but may experience localized sloughing. The recommended slope inclinations assume that no surcharge loading will encroach within a horizontal distance from the top of the excavation equal to the depth of the excavation. 6.5.2. It should be the contractor's responsibility to provide sufficient and safe support for the excavation, as well as nearby utilities, structures and other improvements that could be damaged by earth movements. The contractor should provide appropriate shoring systems for any excavations with slopes steeper than 1:1. Geocon Incorporated should be contacted for recommendations concerning vertical shoring systems. Temporary excavations should be in compliance with the applicable governing agency regulations. The top of temporary excavations should be graded to result in positive drainage away from the excavations. 6.6 Foundations 6.6.1. In general, the project is suitable for the use of continuous strip footings and/or isolated spread footings, if the preceding grading recommendations are followed. Continuous strip footings should be at least 18 inches wide and should extend at least 24 inches below lowest adjacent pad grade into dense native soil or properly compacted fill soil. Isolated spread footings should be at least 24 inches square and extend at least 30 inches below lowest adjacent pad grade. Minimum reinforcement for continuous footings should consist of four No. 4, steel reinforcing bars placed horizontally in the footings, two near the top and two near the bottom. Reinforcement for the spread footings should be designed by the project structural engineer. 6.6.2. The recommended concrete reinforcement presented above is based on soil characteristics only and is not intended to be in lieu of reinforcement necessary to satisfy structural loading. Project No. 05343-12-04 ~ January 27, 1997 6.6.3. The recommended allowable soil bearing pressure for foundations designed as discussed above is 3,000 psf. This bearing pressure may be increased an additional 500 psf for each additional foot of depth and an additional 300 psf for each additional foot of width, to a maximum allowable bearing pressure of 4,000 psf. These values are for dead plus live loads and may be increased by one-third when considering transient loads due to wind or seismic forces. Foundations designed as recommended are anticipated to have an estimated total and differential settlement of one inch and one-half inch (measured for a horizontal distance of 50 feet), respectively. 6.6.4. The use of isolated footings located beyond the perimeter of the building that support structural elements connected to the building are not recommended for areas underlain by deep fills or fill thickness differentials. Where this condition cannot be avoided, the isolated footings should be connected to the building foundation system with grade beams designed by a structural engineer. 6.6.5. Foundations for the proposed structures located in close proximity to foundations of the existing structures should be placed at the same elevation so as not to create a surcharge condition due to the loading of one foundation influencing the other. 6.6.6. All footing excavations should be observed by a representative of Geocon Incorporated prior to placing reinforcing steel or concrete. The above foundation recommendations are based on a "low" expansive soil condition. If soils with higher expansive potential (Expansion Index greater than 50) are encountered within 3 feet of finish grade, deeper footings and/or additional steel reinforcing may be required. 6.7 Concrete Slabs 6.7.1. Concrete slabs not subjected to vehicular traffic or other heavy loads should be at least 4 inches thick and be reinforced with 6x6-10/10 welded wire mesh, located at slab midpoint. 6.7.2. The underground parking slab, limited to light-weight vehicular traffic loading, should have a thickness of at least 5 inches and be reinforced with No. 3 bars spaced at 24 inches in both directions. This assumes that possible hydrostatic uplift pressures will be mitigated by the installation of drains at the garage wall boundaries. 6.7.3. Concrete utilized for the underground parking slab shall be Class 560-B-3250 ("Green Book") with a minimum modulus of rupture (MOR) of 600 psi. This Class and MOR of Project No. 05343-12-04 - 8 - January 27, 1997 concrete is considered a minimum and may be modified at the discretion of the project structural engineer. Crack control joints should be spaced at a maximum of 15 feet, each way. Construction joints should be dowelled. Expansion joints should be specified to isolate fixed objects abutting or within the slab area. 6.7.4. Concrete for slabs other than the underground parking garage should be specified by the structural engineer 6.7.5. All interior slabs should be underlain by at least 4 inches of clean sand or clean crushed rock. For the underground garage slab clean crushed rock is the preferred alternative. 6.7.6. Slabs expected to receive moisture-sensitive floor coverings or to be used for storage of moisture-sensitive materials, or where moisture migration through the slab is undesirable should be underlain by a suitable vapor barrier covered with 2 inches of clean sand. 6.7.7. No special subgrade presaturation is deemed necessary prior to placing concrete; however, the exposed foundation and slab subgrade soils should be sprinkled, as needed, to maintain a moist condition as would be expected in any such concrete placement. 6.7.8. The recommendations of this report are intended to reduce the potential for cracking of slabs due to expansive soils (if present), differential settlement of deep fills or fills of varying thicknesses. However, even with the incorporation of the recommendations presented herein, foundations, stucco walls, and slabs-on-grade placed on such conditions may still exhibit some cracking due to soil movement and/or shrinkage. The occurrence of concrete shrinkage cracks is independent of the independent of the supporting soil characteristics. Their occurrence may be reduced and/or controlled by limiting the slump of the concrete, proper concrete placement and curing, and by the placement of crack control joints at periodic intervals, in particular, where re-entry slab corners occur. 6.8 Retaining Walls and Lateral Loads 6.8.1. Active earth pressures against walls will depend upon the slope of backfill and the degree of wall restraint. Unrestrained walls are those that are allowed to rotate more than 0.001H (where H equals the height of the retaining wall portion of the wall in feet) at the top of the wall. Unrestrained walls with a level backfill should be designed to resist an active pressure equivalent to the pressure exerted by a fluid weight of 40 pcf. Project No. 05343-12-04 -9- January 27, 1997 6.8.2. It is anticipated that the below grade walls of the parking structure will be rigidly restrained by the second level floor beams. For rigid, restrained walls, an additional uniform pressure of 7H psf (where H equals the wall height in feet) should be added to the above loading. These values assume a drained backfill condition with no hydrostatic pressure behind the wall. 6.8.3. The above recommendations assume level, properly drained granular backfill with no surcharge loading on the wall. For 2:1 (horizontal: vertical) sloping backfill, an active earth pressure equivalent to that exerted by a fluid weighing 60 pcf should be assumed. If the retaining walls are subject to vehicle traffic surcharge within a horizontal distance equal to or less than the height of the wall they should be designed for an additional uniform horizontal pressure of 75 psf. 6.8.4. In general, exterior retaining wall foundations having a minimum depth and width of one foot may be designed for an allowable soil bearing pressure of 2,000 psf, provided the soil within 3 feet below the base of the wall has an Expansion Index of less than 90. The proximity of the foundation to the top of a slope steeper than 3:1 could impact the allowable soil bearing pressure and will require additional depth as previously discussed. Therefore, Geocon Incorporated should be consulted where such a condition is anticipated. 6.8.5. Underground parking structure wall foundations should conform to the recommendations previously presented in the Foundations section. 6.8.6. For resistance to lateral loads, an allowable passive earth pressure equivalent to a fluid density of 300 pcf is recommended for footings or shear keys poured neat against properly compacted granular fill soils or undisturbed natural soils. The allowable passive pressure assumes a horizontal surface extending at least 5 feet or three times the surface generating the passive pressure, whichever is greater. The upper 12 inches of material not protected by floor slabs or pavement should not be included in the design for lateral resistance. An allowable friction coefficient of 0.4 may be used for resistance to sliding between soil and concrete. This friction coefficient may be combined with the allowable passive earth pressure when determining resistance to lateral loads. 6.8.7. Retaining walls should be properly waterproofed and provided with wall drainage systems to reduce the potential for hydrostatic pressure buildup behind walls. Figure 3 presents a recommended wall drain detail for underground parking retaining walls. The project architect and Geocon Incorporated should approve any drainage boards to be used in project design. Figure 4 is a recommended wall drain detail for exterior retaining walls. If Project No. 05343-12-04 - 10- January 27, 1997 conditions different than those described are anticipated or if other drainage details are requested, Geocon Incorporated should be contacted for additional recommendations. 6.8.8. Retaining wall construction may result in a narrow void between the backcut soils and the adjacent face of the wall. Where this condition occurs, backfilling and compacting the void will not be practical by conventional methods. In this case, the void should be filled with dry, coarse sand or pea gravel. Prodding or tamping the material may be necessary to assure complete backfilling. 6.8.9. The recommendations presented above are generally applicable to the design of exterior rigid concrete or masonry retaining walls having a maximum height of 8 feet. In the event that walls higher than 8 feet or other types of walls are planned, such as crib-type walls, Geocon Incorporated should be consulted for additional recommendations. 6.9 Reactive Soil Characteristics 6.9.1. Reactive soil characteristics as indicated by pH and resistivity tests were not within the scope of work for this study. Geocon Incorporated does not practice in the field of corrosion engineering. Therefore, this information, if required, should be provided by other qualified consultants and furnished to those responsible for below grade improvements to evaluate potential adverse effect. 6.10 Site Drainage 6.10.1. Adequate drainage provisions are imperative. Under no circumstances should water be allowed to pond adjacent to footings. The site should be graded and maintained such that surface drainage is directed away from structures and the top of slopes into swales or other controlled drainage devices. All roof and pavement drainage should be directed onto splash- blocks or into conduits which carry runoff away from the proposed structure. 6.10.2. Landscaping planters immediately adjacent to paved areas are not recommended due to the potential for surface or irrigation water to infiltrate the pavement's subgrade and base course. It is suggested that either subdrains, which collect excess irrigation water and transmit it to drainage structures, or impervious, above-grade planter boxes be used. In addition, where landscaping is planned adjacent to the pavement, it is recommended that consideration be given to providing a cutoff wall along the edge of the pavement that extends at least 6 inches below the subgrade soil. Project No. 05343-12-04 - 11 - January 27, 1997 LIMITATIONS AND UNIFORMITY OF CONDITIONS 1. The recommendations of this report pertain only to the site investigated and are based upon the assumption that the soil conditions do not deviate from those disclosed in the investigation. If any variations or undesirable conditions are encountered during construction, or if the proposed construction will differ from that anticipated herein, Geocon Incorporated should be notified so that supplemental recommendations can be given. The evaluation or identification of the potential presence of hazardous or corrosive materials was not part of the scope of services provided by Geocon Incorporated. 2. 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. 3. 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 of this report may be invalidated wholly or partially by changes outside our control. Therefore, this report is subject to review and should not be relied upon after a period of three years. Project No. 05343-12-04 January 27, 1997 APPENDIX B LABORATORY TESTING Laboratory tests were performed in accordance with generally accepted test methods of the American Society for Testing and Materials (ASTM) or other suggested procedures. Selected soil samples were tested for their in-place unit weight and moisture content and grain-size distribution. The results of our laboratory tests are presented on Figure B-l and Figures A-l and A-2. Project No. 05343-12-04 January 27, 1997 SOURCE: 1996 THOMAS BROTHERS MAP SAN DIEGO COUNTY, CALIFORNIA REPRODUCED WITH PERMISSION GRANTED BY THOMAS BROTHERS MAPS. THIS MAP IS COPYRIGHTED BY THOMAS BROS. MAPS. IT IS UNLAWFUL TO COPY OR REPRODUCE ALL OR ANY PART THEREOF, WHETHER FOR PERSONAL USE OR RESALE, WITHOUT PERMISSION GEOCON ®> INCORPORATED ^Mr GEOTECHNICAL CONSULTANTS 6960 FLANDERS DRIVE - SAN DIEGO, CALIFORNIA 92121-2974 PHONE 619 558-6900 - FAX 619 558-6159 GWC / JS DSK/GOOOO VICINITY MAP SEAPOINTE RESORT CARLSBAD, CALIFORNIA DATE 1-27-97 PROJECT NO. 05343 - 12 - 04 FIG1 1VICMAP EXISTING SEA POINTE RESORT DEVELOPMENT PROJECT BOUNDARY mX CO o g D PROPOSED BUILDING LOCATIONS EXISTING ROAD SEA POINTE RESORT CARLSBAD, CALIFORNIA r N SCALE: 1" = 40' C GEOCON INCORPOEATED B-1 LEGEND APPROX. LOCATION OF BORING SITE PLAN GEOTECHNICAl CONSULTANTS 696O FLANDERS DRIVE - SAN DIEGO, CALIFORNIA 92121 2974 PHONE 619 558 6900 - FAX 619 558-6159 PROJECT NO. 05343-12-04 FIGURE 2 DATE 1-27-1997 S343GC . O.' .0 .0.' .O. .C. ft -Q • ' /S -Q • ' f\ -^ BASEMENT RETAINING WALL- •<>•'• «ei -A'^ •'• «•:' ° •«•.'• <?•:' •' -°-.'• «•: 18" T DRAINAGE PANEL (J-DRAIN 1000 OR EQUIVALENT) 3/4" CRUSHED ROCK (1 CU.FT. / FT.) FILTER FABRIC ENVELOPE (MIRAFI 140N OR EQUIVALENT) 4" DIA. SCHEDULE 40 PERFORATED PVC PIPE EXTENDED TO APPROVED OUTLET FOOTING SAND OR ROCK VISQUEEN (AS SPECIFIED) NO SCALE BASEMENT RETAINING WALL DRAIN DETAIL GBOCON ffl 1NCOR.POR.ATED \JLJ GEOTECHNICAL ENGINEERS AND ENGINEERING GEOLOGISTS (i960 FLANDERS DRIVE - SAN DIEGO. CALIFORNIA 92I2I-2974 PHONE 619 558-6900 - FAX 619 558-6159 GWC / RSA DSK/GTYP1 SEA POINTE RESORT PHASE 2 CARLSBAD, CALIFORNIA DATE 1-27- 1997 PROJECT NO. 05343- 12-04 FIG. 3 RWDD3/X-IXV PROPERLY ' COMPACTED BACKFILL DRAINAGE PANEL (J-DRAIN 1000 OR EQUIVALENT) FILTER FABRIC ENVELOPE (MIRAFI 140N OR EQUIVALENT) 3/4" CRUSHED ROCK (1 CU. FT/FT) 4" DIA. SCHEDULE 40 PERFORATED PVC PIPE EXTENDED TO APPROVED OUTLET t-r NO SCALE EXTERIOR RETAINING WALL DRAIN DETAIL GEOCON fh INCORPORATED \IL-J GEOTECHNICAL ENGINEERS AND ENGINEERING GEOLOGISTS 6960 FLANDERS DRIVE - SAN DIEGO, CALIFORNIA 92I2I-2974 PHONE 619 558-6900 - FAX 619 558-6159 GWC / RSA DSK/GTYP1 SEA POINTE RESORT PHASE 2 CARLSBAD, CALIFORNIA DATE 1-27-1997 PROJECT NO. 05343 - 12 - 04 FIG. 4 RWDD9 APPENDIX APPENDIX A FIELD INVESTIGATION The field investigation was performed on December 4, 1996, and consisted of a site reconnaissance and the excavation of two exploratory borings to depth of approximately 31 and 21 feet below ground surface. The borings were excavated using a Spiradrill T1206 drill rig fitted with hollow- stem augers. Relatively undisturbed soil samples were obtained from various depths within the borings using a California modified split-spoon sampler fitted with brass rings. The soils encountered in the borings were visually examined, classified, and logged in general accordance with ASTM practice for Description and Identification of Soils (Visual-Manual Procedure D 2844). Logs of the exploratory borings depicting the soil and geologic conditions encountered and the depths at which samples were obtained are presented on Figures A-l and A-2. Project No. 05343-12-04 January 27, 1997 PROJECT NO. 05343-12-04 DEPTH IN FEET nU - 2 - - - 4 - _ — - 6 - - 8 - - 10 - - 12 - - 14 - — - 16 - - 18 - - 20 - ~ — - 22 - - 24 - — - 26 - - 28 - - 30 - - SAMPLE NO. Bl-1 Bl-2 Bl-3 Bl-4 Bl-5 Bl-6 Bl-7 Bl-8 Bl-9 ._LITHOLOG.-"• •'- . • _ . •- • -' "-. • - _'.-.- - - -:• :"•:"• * - ' - ceii GROUNDUA1SOIL CLASS (USCS) SP BORING B 1 ELEV. (MSL.) 63 DATE COMPLETED 12/4/96 EQUIPMENT T1206 DRILL RIG MATERIAL DESCRIPTION TERRACE DEPOSITS Very dense, moist, red brown, medium SAND, some silt, trace clay -Becomes gray-orange brown mottled with stratification -Dense, moist, light orange gray with black specks, medium SAND, cohesionless -Very dense, moist, brown, fine SAND, some silt, trace clay -Dense, moist, orange and black, medium SAND -Very dense, moist, light orange-gray with black •\ specks, fine SAND, stratified /• BORING TERMINATED AT 31.5 FEET Z s^ENETRATIOI(ESISTANCEBLOUS/FT.Q_U-\S -50/4" 74 - 71 41 51 - 45— — - 49 - 44 ^ fcz . 0 115.3 113.3 MOISTUREDNTENT (Xu 7.5 4.1 3.3 Figure A-l Log of Boring B 1, page 1 of 1 SEA SAMPLE SYMBOLS D ... SAMPLING UNSUCCESSFUL B ... STANDARD PENETRATION TEST • ... DRIVE SAMPLE (UNDISTURBED) §1 ... DISTURBED OR BAG SAMPLE K ... CHUNK SAMPLE I ... WATER TABLE OR SEEPAGE NOTE: THE LOG OF SUBSURFACE CONDITIONS SHOWN HEREON APPLIES ONLY AT THE SPECIFIC BORING OR TRENCH LOCATION AND AT THE DATE INDICATED. IT IS NOT WARRANTED TO BE REPRESENTATIVE OF SUBSURFACE CONDITIONS AT OTHER LOCATIONS AND TIMES. PROJECT NO. 05343-12-04 DEPTH IN FEET - 2 - - 4 - ~ — - 6 - - 8 - - 10 - 12 - - 14 - - 16 - - 18 - - 70 - — SAMPLE NO. B2-1 1 B2-2 fI B2-3 1P B2-4 1 f CDO o H ?# t/.'/ ///'/ ''-//'/ fe? g -• .' |. - '• ' -'_'.'_ ' - . ' ccu •3. z QceCO SOIL CLASS (USCS) SC SP T>/"\T"1TVT/"^ T> ^BORING B 2 ELEV. (MSL.) 60 DATE COMPLETED 12/4/96 EQUIPMENT T1206 DRILL RIG MATERIAL DESCRIPTION TERRACE DEPOSITS Dense, moist, red brown, Clayey, medium SAND Dense, moist, orange and yellow-gray banded, medium SAND, grades into fine sand Dense, moist, red-brown with black specks, fine SAND trace silt Dense, moist, orange, gray and black, fine SAND, cohesionless BORING TERMINATED AT 21.5 FEET ow~.Hyi-h-jpLl.<E£\ £«o*S*~H3 5^mQ.0^ 52 49 50 _ - 61— > H~w ulUJ.JQ . Ql*'0 107.3 ^ o;^ ^SSy°l (J 3.4 Figure A-2 Log of Boring B 2, page 1 of 1 SEA SAMPLE SYMBOLS D... SAMPLING UNSUCCESSFUL H ... DISTURBED OR BAG SAMPLE C... STANDARD PENETRATION TEST •... DRIVE SAMPLE (UNDISTURBED) K ... CHUNK SAMPLE T. ... WATER TABLE OR SEEPAGE NOTE: THE LOG OF SUBSURFACE CONDITIONS SHOWN HEREON APPLIES ONLY AT THE SPECIFIC BORING OR TRENCH LOCATION AND AT THE DATE INDICATED. IT IS NOT WARRANTED TO BE REPRESENTATIVE OF SUBSURFACE CONDITIONS AT OTHER LOCATIONS AND TIMES. APPENDIX APPENDIX B LABORATORY TESTING Laboratory tests were performed in accordance with generally accepted test methods of the American Society for Testing and Materials (ASTM) or other suggested procedures. Selected soil samples were tested for their in-place unit weight and moisture content and grain-size distribution. The results of our laboratory tests are presented on Table B-I and Figures A-l and A-2. Project No. 05343-12-04 January 27, 1997 PROJECT NO. 05343-12-04 GRAVEL COARSE FINE SAND COARSE MEDIUM FINE SBLT OR CLAY U. S. STANDARD SIEVE SIZE 8 16 30 50 3" 1-1/2" 3/4" 3/8" 4 110 I 20 40 60 100 2001 no "• — * -*1 ' H LU2 CO u 50 HU. K 40 HIo £ 30 20 10 0 I T ^\« > 1\\i\ \\1>> 1 i \ I\ \N S •— 1 —10 1 0.1 0.01 0.001 GRAIN SIZE IN MILLIMETERS m SAMPLE Bl-6 B2-1 Depth (ft) 15.0 5.0 CLASSIFICATION (SP) Medium SAND, cohesionless (SC) Clayey medium SAND VAT WC LL PL PI GRADATION CURVE SEAPOINTE RESORT ADDITION CARLSBAD, CALIFORNIA SEA Figure B-l