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Home My WebLink AboutPD 15-06; PD - BUILDING 7710 SHELL + SITE; GEOTECHNICAL EVALUATION; 2015-04-17GEOTECIIISICAL EVALUATION LA COSTA TOWNE CENTER PROPOSED EQUINOX FITNESS CENTER 7710 ELCAMINO REAL CARLSBAD, CALIFORNIA - f - I AUG 05 2015 j\i -•' - PREPARED FOR: AG-CP La Costa Owner, LP 1640 5th Street, Suite 101 Santa Monica, California 90401 PREPARED BY: Ninyo & Moore Geotechnical and Environmental Sciences Consultants 5710 Ruffin Road San Diego, California 92123 April 17, 2015 Project No. 107302005 5710 Ruffin Road San Diego, California 92123 Phone (858) 576-1000 Fax (858) 576-9600 San Diego a lMne Los Angeles ' Randio Cucarnonga Oakland San Francisco San Jose • Sacramento Las Vegas Phoenix Tucson Pescottvaey Denver • Houston &Moore 1Tr7. Envronmcrn,it Snc.es C.ont April 17, 2015 Project No. 107302005 Mr. Dave Heilman AG-CP La Costa Owner, LP 1640 5" Street, Suite 101 Santa Monica, California 90401 Subject: Geotechnical Evaluation La Costa Towne Center Proposed Equinox Fitness Center 7710 El Camino Real Carlsbad, California Dear Mr. Hellman: In accordance with your authorization, we have prepared this geotechnical evaluation for the con- struction, of the proposed Equinox Fitness Center at the existing La Costa Towne Center at 7710 El Camino Real in Carlsbad, California. This report presents our geotechnical findings, conclusions, and recommendations regarding the proposed renovation of the existing building. We appreciate the opportunity to be of service on this project. Respectfully submitted, NINYO & MOORE //1 -1f Jeffrey T. Kent, PE, GE Senior Engineer 1% - Ronald D. Hallum, P Chief Geologist CAT/JTKJRSH/RDH/g Distribution: (1) Addr No.2817 01 / ) ca co Ronald S. Halbert, PE cc ( No. 042204 Principal Engineer 5710 Ruffin Road San Diego, C1ifornla 92123 a Phone (858) 576-1000 Fax (858) 576-9600 San Diego lMne Los Angeles ' Rancho Cucamonga - Oakland San Francisco San Jose Sacramento Las gas Phoenix • lurson escottVa1i# Denver • Houston La Costa Towne Center Proposed Equinox Fitness Center April 17, 2015 7710 El Camino Real, Carlsbad, California Project No. 107302005 TABLE OF CONTENTS Page INTRODUCTION ...................................................................................... SCOPE OF SERVICES ............................................................................................................ I SITE AND PROJECT DESCRIPTION ...................................................................................2 SUBSURFACE EXPLORATION AND LABORATORY TESTING....................................3 GEOLOGY AND SUBSURFACE CONDITIONS .................................................................3 5.1. Regional Geologic Setting............................................................................................3 5.2. Site Geology .................................................................................................................4 5.2.1. Fill .......................................................................................................................4 5.2.2. Possible Landslide Deposits................................................................................4 5.2.3. Delmar Formation...............................................................................................4 5.3. Groundwater.................................................................................................................5 GEOLOGIC HAZARDS..........................................................................................................5 6.1. Faulting and Seismicity ................................................................................................5 6.1.1. Ground Motion .................................................................................................... 6 6.1.2. Liquefaction Induced Settlement........................................................................7 6.2. Tsunamis.......................................................................................................................7 6.3. Landslides.....................................................................................................................7 CONCLUSIONS ......................................................................................................................7 RECOMMENDATIONS..........................................................................................................9 8.1. Underpinning................................................................................................................9 8.1.1. Concrete Cast-In-Drilled-Hole (CIDH) Piles .....................................................9 8.2. Spread Foundations ....................................................................................................11 8.2.1. Foundation Lateral Resistance..........................................................................11 8.3. Interior Slab-On-Grade Repair...................................................................................12 8.4. Site Drainage ..............................................................................................................12 8.5. Seismic Design Parameters.........................................................................................13 8.6. Concrete Flatwork......................................................................................................13 8.7. Corrosion ....................................................................................................................14 8.8. Concrete......................................................................................................................14 8.9. Pre-Construction Meeting...........................................................................................15 8.10. Plan Review and Construction Observation...............................................................15 LIMITATIONS.......................................................................................................................16 REFERENCES .......................................................................................................................18 107302005 K Equinox.doc j La Costa Towne Center Proposed Equinox Fitness Center April 17, 2015 7710 El Camino Real, Carlsbad, California Project No. 107302005 Tables Table I - Lateral Load Capacity of 24-Inch Diameter CIDH Pile................................................10 Table 2 - Lateral Load Capacity of 36-Inch Diameter CIDH Pile................................................10 Table 3 —2013 California Building Code Seismic Design Criteria...............................................13 Figures Figure 1 - Site Location Figure 2 - Boring Locations Figure 3 - Geology Figure 4— Fault Locations Figure 5 - Underpinning Plan Appendices Appendix A - Boring Logs Appendix B - Laboratory Testing I0730200 R Equinox.doc II dy#n,u&,jAnure La Costa Towne Center Proposed Equinox Fitness Center April 17, 2015 7710 El Camino Real, Carlsbad, California Project No. 107302005 INTRODUCTION In accordance with our proposal dated February 18, 2015, we have prepared this geotechnical evaluation for the proposed Equinox Fitness Center at 7710 El Camino Real. The project site is part of the existing La Costa Towne Center shopping center. The project is located at the southeast cor- ner of El Camino Real and La Costa Avenue in the city of Carlsbad, California (Figure 1). This report summarizes our geotechnical work at the site, presents conclusions regarding the geotechni- cal conditions at the project site, and makes recommendations regarding design and construction of the currently proposed project. SCOPE OF SERVICES Our scope of services included the following: Reviewing background information including available geotechnical reports (including previ- ous site geotechnical reports), as-built plans, geologic and fault maps, and aerial photographs. Performing a geologic reconnaissance of the subject site. Marking the exploratory boring locations for clearance by Underground Service Alert. Coordinating with the County of San Diego Department of Environmental Health (DEM) to obtain boring permits. Performing a subsurface exploration consisting of the drilling and logging of three explora- tory soil borings with a limited-access drill rig. The borings were advanced to depths up to approximately 31 feet. Collecting bulk and in-place soil samples at selected depths from the soil borings and trans- porting them to our in-house geotechnical laboratory for analysis. Performing geotechnical laboratory testing on representative samples to evaluate soil char- acteristics and design parameters. Compiling and analyzing the data obtained from our background research, subsurface explo- ration, and geotechnical laboratory testing. Preparing this report presenting our findings, conclusions, and recommendations regarding geotechnical design and construction aspects of the project. 107302005 R Equinox.doc 1 La Costa Towne Center Proposed Equinox Fitness Center April 17, 2015 7710 El Camino Real, Carlsbad, California Project No. 107302005 3. SITE AND PROJECT DESCRIPTION The project site is a vacant, former grocery store building located at 7710 El Camino Real in Carls- bad, California (Figure 2). The building is located at the northern end of the La Costa Towne Center shopping center. The building is bounded by an asphalt concrete (AC) paved parking lot and drive lanes to the south and east. An approximately 25-foot high slope with an approximately 3- foot high concrete masonry unit (CMU) retaining wall at its toe is approximately 35 feet west of the building. There is also an approximately 8 foot high CMU retaining wall with sloping backfill approximately 7 feet high less than 10 feet to the to the north of the subject building. Inclinations of the slopes bounding the building are approximately 2:1 (horizontal to vertical). Elevations at the site range from approximately 53 feet above mean sea level (MSL) at the building pad to approxi- mately 30 feet at the bottom of the slope on the west side of the building. The former grocery store building has been vacant for the last several years. During our fieldwork, we observed the western wall of the building to exhibit several cracks and separations. The interior slab-on-grade was also observed to be cracked in several areas. In addition, we observed the CMU wall to the north of the building to be bowed out to the north. A previous geotechnical investigation performed by Benton Engineering (1977) concluded that an old landslide was present on the eastern slope descending towards the shopping center ap- proximately 100 feet east of the subject building. Recommendations were also provided for mitigation of the landslide in that report. Based on the reviewed as-built grading plans for the site (Brian Smith Engineers, 1982), landslide remediation measures were implemented at the time of the construction of the shopping center and included cast-in-place piers and buttress fills placed along the hillside east of the shopping center. Based on our review of the data and our subsurface exploration, the landslide does not extend into the area of the proposed building renovation. Based on our review of the preliminary project plans (Mour, 2015), we understand that the pro- posed project will include the renovation of the existing approximately 30,800 square-foot grocery store building into an Equinox Fitness Center. The plans indicate that the west masonry wall of the existing building will be removed and replaced with a glass wall. New foundations, 107302005 R Equinox.doc 2 IyI175CIOQE La Costa Towne Center Proposed Equinox Fitness Center April 17, 2015 7710 El Camino Real, Carlsbad, California Project No. 107302005 columns, and brace frames will be installed to support the roof and structural loads. A new of- fice/mezzanine area is planned for the southeastern portion of the building. Additional improvements are anticipated to include the replacement of the existing concrete slab-on-grade and portions of the exterior flatwork. SUBSURFACE EXPLORATION AND LABORATORY TESTING Our subsurface exploration was conducted on March 12 and March 16, 2015, and consisted of the drilling of three exploratory borings (B-I through B-3). The borings were drilled using a track- mounted limited-access drill rig to depths up to approximately 31 feet. The borings were logged by representative from our firm. Representative disturbed and relatively undisturbed soil samples were obtained at selected depths from each of the borings for laboratory testing. The approximate loca- tions of the borings are presented on Figure 2. The boring logs are presented in Appendix A. Relatively undisturbed and bulk samples were collected at selected depths from the borings and were transported to our laboratory for geotechnical testing. Laboratory testing included an evalua- tion of in-situ moisture content and dry density, gradation (sieve) analysis, Atterberg limits, consolidation, shear strength, expansion index, and soil corrosivity. The results of the in-situ mois- ture content and dry density tests are shown at the corresponding sample depths on the boring logs in Appendix A. The results of the other laboratory tests performed are presented in Appendix B. GEOLOGY AND SUBSURFACE CONDITIONS Our findings regarding regional and site geology, including groundwater conditions, are pro- vided in the following sections. 5.1. Regional Geologic Setting The project area is located in the western San Diego County section of the Peninsular Ranges Geomorphic Province. This geomorphic province encompasses an area that extends approximately 900 miles from the Transverse Ranges and the Los Angeles Basin south to the southern tip of Baja California (Norris and Webb, 1990). The province varies in width 107302005 R Equinoxdoc 3 !1tYi75117lpUure La Costa Towne Center Proposed Equinox Fitness Center April 17, 2015 7710 El Camino Real, Carlsbad, California Project No. 107302005 from approximately 30 to 100 miles. In general, the province consists of rugged mountains underlain by Jurassic metavolcanic and metasedimentary rocks, and Cretaceous igneous rocks of the southern California batholith. The portion of the province in San Diego County that includes the project area consists generally of Quaternary-age surficial deposits, under- lain by Tertiary- and Cretaceous-age sedimentary rocks. 5.2. Site Geology As shown on Figure 3, the project site is generally underlain by the Tertiary-age Delmar Formation. Surficial soils consisting of fill materials and possible landslide deposits are also present in the project area. Generalized descriptions of the on-site materials are provided be- low. Additional descriptions are provided on the boring logs (Appendix A). 5.2.1. Fill Fill soils were encountered in each of our borings underlying the concrete floor slab or AC pavements to depths ranging from approximately 3 to 19 feet. As encountered, the fill ma- terials generally consisted of various shades of brown and gray, moist, medium dense, clayey sand and firm to hard, silty clay. 5.2.2. Possible Landslide Deposits As discussed in the Benton report (Benton, 1977), landslide deposits underlie portions of the La Costa Towne Center site approximately 100 feet to the east of the subject building. The possible landslide deposits generally consist of material derived from the Delmar Formation. The landslide deposits were not encountered in our borings and are not anticipated to underlie the area of the proposed building renovation. 5.2.3. Delmar Formation Materials of the Tertiary-age Delmar Formation were encountered in our borings underlying the fill materials and extending to the total depths explored. As encountered, these materials consisted generally of various shades of olive and gray, moist, weakly to moderately indurated, clayey siltstone and moderately cemented sandy siltstone and 107302005 R Equinox.doc 4 La Costa Towne Center Proposed Equinox Fitness Center April 17, 2015 7710 El Camino Real, Carlsbad, California Project No. 107302005 silty sandstone. Scattered concretions, or very strongly cemented zones, were encoun- tered within the Delmar Formation. 5.3. Groundwater Groundwater was not encountered in our exploratory borings. However, groundwater result- ing from seepage of upslope irrigation has been measured at depths as shallow as 3 Y2 feet in borings performed for previous evaluations in the project area. Fluctuations in the ground- water level may occur due to variations in tidal fluctuations, ground surface topography, subsurface geologic conditions and structure, rainfall, irrigation, and other factors. Existing piezometers placed during previous geotechnical evaluations at the site should continue to be monitored as the project moves towards construction. 6. GEOLOGIC HAZARDS The following sections describe potential geologic hazards at the site, including faulting and seismicity, landsliding, and liquefaction. 6.1. Faulting and Seismicity The subject site is considered to be in a seismically active area. Our review of readily avail- able published geological maps and literature indicate that the there are no known active or potentially active faults (i.e., faults that exhibit evidence of ground displacement in the last 11,000 years and 2,000,000 years, respectively), underlying the proposed site. Major known active faults in the region consist generally of en-echelon, northwest-striking, right-lateral, strike-slip faults. These include the San Andreas, Elsinore, and San Jacinto faults located northeast of the site, and the San Clemente, San Diego Trough, and Coronado Bank faults located to the west of the site (Figure 4). 107302005K Equinox.doc 5 La Costa Towne Center Proposed Equinox Fitness Center April 17, 2015 7710 El Camino Real, Carlsbad, California Project No. 107302005 The closest known active fault is the Rose Canyon Fault, which can generate an earthquake magnitude of up to 7.2 (Cao et al., 2003), is located approximately 5 miles west of the site. In general, hazards associated with seismic activity include strong ground motion, ground surface rupture, liquefaction, and seismically induced settlement. Discussion of these con- siderations is included in the following sections. 6.1.1. Ground Motion The 2013 California Building Code (CBC) specifies that the Risk-Targeted, Maximum Considered Earthquake (MCER) ground motion response accelerations be used to evaluate seismic loads for design of buildings and other structures. The MCER ground motion response accelerations are based on the spectral response accelerations for 5 percent damping in the direction of maximum horizontal response and incorporate a target risk for structural collapse equivalent to 1 percent in 50 years with deterministic limits for near-source effects. The horizontal peak ground acceleration (PGA) that corresponds to the MCER for the site was calculated as 0.46g using the United States Geological Survey (USGS, 2013) seismic design tool (web-based). Spectral response acceleration parameters, consistent with the 2013 CBC, are also provided in Section 8.5 for the evaluation of seismic loads on buildings and other structures. The 2013 CBC specifies that the potential for liquefaction and soil strength loss be evaluated, where applicable, for the Maximum Considered Earthquake Geometric Mean (MCEG) peak ground acceleration with adjustment for site class effects in accordance with the American Society of Civil Engineers (ASCE) 7-10 Standard. The MCEG peak ground acceleration is based on the geometric mean peak ground acceleration with a 2 percent probability of exceedance in 50 years. The MCEG peak ground acceleration with adjustment for site class effects (PGAM) was calculated as 0.46g using the USGS (USGS, 2013) seismic design tool that yielded a mapped MCEG peak ground acceleration of 0.43g for the site and a site coefficient (FPGA) of 1.074 for Site Class D. 107302005 R Equinox.doc 6 La Costa Towne Center Proposed Equinox Fitness Center April 17, 2015 7710 El Camino Real, Carlsbad, California Project No. 107302005 6.1.2. Liquefaction Induced Settlement Liquefaction of cohesionless soils can be caused by strong vibratory motion due to earth- quakes. Research and historical data indicate that loose, granular soils with clay contents of less than 20 percent, which are saturated by a relatively shallow groundwater table, are more susceptible to liquefaction. However, based on the generally dense nature of the formational materials underlying the site, the potential for liquefaction at the site is not a design consideration. 6.2. Tsunamis Tsunamis are long wavelength seismic sea waves (long compared to the ocean depth) gener- ated by sudden movements of the ocean bottom during submarine earthquakes, landslides, or volcanic activity. Based on the elevations of the existing grade of the project site (i.e., ap- proximately 40 to 80 feet MSL), and the distance from the ocean, the potential for tsunamis to affect the site is not a design consideration. 6.3. Landslides Based on our review of referenced geologic maps, there are no mapped landslides underlying the subject site. However, the previous evaluation of the site performed by Benton (1977) indi- cated that an ancient landslide was present approximately 35 feet to the east of the subject building. Based on our review of background materials and the materials encountered during our subsurface exploration, the ancient landslide is not anticipated to underlie the subject build- ing. 7. CONCLUSIONS Based on the results of our background research, subsurface exploration, laboratory testing, and data analysis, construction of the proposed renovations is feasible from a geotechnical stand- point, provided the recommendations of this report are incorporated in the design and construction of the project. Geotechnical considerations include the following: 107302005 R Equinox.doc 7 )y1174q0&Iytunre La Costa Towne Center Proposed Equinox Fitness Center April 17, 2015 7710 El Camino Real, Carlsbad, California Project No. 107302005 Based on our review of as-built plans (Brian Smith Engineers, 1982) and the findings from our borings (B-I through B-3), the subject building is underlain by a cut-fill transition. The east- erly and southerly portions of the building are anticipated to be underlain by formational materials. The westerly portion of the building is underlain by 19 feet or more of fill materials. As described, the existing building has various cracks and separations within the westerly exterior building wall and potions of the interior slab-on-grade. These features are indicative of soil movement. Since the laboratory consolidation tests indicate the fill soils beneath the building are not considered prone to further settlement, the soil movement is considered to be related to creep of the western slope. Due to the presence of a cut-fill transition beneath the building and the noted soil movement resulting in observed cracks and separations, recommendations to underpin the building are presented in this report. Based on the evidence presented herein, it is our opinion that active faults are not present on or adjacent to the project site. The subsurface conditions encountered at the site during our subsurface exploration corre- spond to Site Class D. The on-site materials are generally excavatable with conventional heavy-duty earth moving construction equipment. However, strongly cemented zones within the formational materials were encountered that may require additional effort in excavation. Additionally, existing fill soils are susceptible to caving and sloughing. Zones of seepage will also exacerbate the cav- ing of on-site soils. Due to the presence of zones of seepage encountered nearby, the contractor should anticipate encountering wet soils that will require additional moisture conditioning and aeration prior to reuse as compacted fill. As a result of the presence of wet soils and zones of seepage the contractor should anticipate en- countering yielding subgrade conditions that will require additional processing and/or stabilization. Based on the laboratory data presented in the following sections and the Caltrans (2012) corrosion criteria, the project site would be classified as a corrosive site. Additionally, the laboratory testing indicates that the on-site soils possess a severe potential of sulfate expo- sure for concrete. 107302005 R Equinoxdoc 8 La Costa Towne Center Proposed Equinox Fitness Center April 17, 2015 7710 El Camino Real, Carlsbad, California Project No. 107302005 8. RECOMMENDATIONS Ninyo & Moore has evaluated various alternatives to address the soil movement of the northern and western portions of the building, including underpinning the foundation with drilled rein- forced concrete cast-in-drilled-hole (CIDH) piles, pipe piles, and/or chance anchors. Based on the results of our geotechnical evaluation, it is our opinion that underpinning of the northern and western portions of the building using CIDH piles for remedial support of the structure is feasi- ble from a geotechnical standpoint, provided that the recommendations presented in this report are incorporated into the design and construction of the project. 8.1. Underpinning We recommend that the portions of the exterior perimeter of the building be underpinned for remedial support of the structure, as shown on Figure 5. Ninyo & Moore has evaluated vari- ous alternatives to address the settlement of the northern and western end of the building, including underpinning the foundation with drilled reinforced concrete CIDH piles, pipe piles, and/or chance anchors. We do not recommend using pipe piles or chance anchors due to the potential for buckling when the soils within the adjacent slopes continue to creep. The design of the selected underpinning system should be performed in accordance with the rec- ommendations of a structural engineer. Structural repairs to the building should be performed in accordance with the recommendations of a qualified structural engineer. 8.1.1. Concrete Cast-In-Drilled-Hole (CIDH) Piles The following recommendations are for the use of concrete (CIDH) piles for remedial support of the areas of the building shown on Figure 5. The key design parameters and considerations for the CIDH piles are presented below. The CIDH piles should be 24 inches or 36 inches in diameter. The spacing of piles should be evaluated by the project structural engineer based on the estimated total service (dead and live) loads. 107302005 R Equinox.doc 9 La Costa Towne Center Proposed Equinox Fitness Center April 17, 2015 7710 El Camino Real, Carlsbad, California Project No. 107302005 The CIDH piles should extend through the existing fill materials and be embedded 5 feet or more into competent formational materials. As previously noted, the fill thicknesses at the site vary. Accordingly, the length of piles will also vary based on the existing fill thicknesses. The 24-inch and 36-inch CIDH piles that are 25 feet or longer, which are also embedded 5 feet or more into competent formational materials may be designed for an allowable axial capacity of 30 kips and 60 kips in downward compression, respectively. in addi- tion, the CIDH piles can be designed for lateral capacities as shown on Tables I and 2. CIDH pile excavations should be observed by Ninyo & Moore to check the design pile embedment depths evaluated by the project structural engineer. The drilled holes should be cleared of loose soil prior to pouring concrete. Although groundwater was not present during our subsurface exploration, if encoun- tered, groundwater will have an impact on construction of the CIDH piles. The contractor should be prepared to case the excavations where caving occurs. Drilling mud may be used in lieu of casing to aid in retaining the soils. Concrete should be tremied into place with an adequate head to displace water or drilling mud. Concrete should not be placed freefall or in such a manner as to hit the sidewalls of the excavation. Table 1 - Lateral Load Capacity of 24-Inch Diameter CIDH Pile Design condition Free-Head I Fixed Head Pile Length* 25 feet or more* Allowable Deflection 1/4-inch at Pile Head Lateral Capacity, kips 14 36 Max. Positive Moment, ft-kip 50.5 45.2 Max. Negative Moment, ft-kip -2.5 -158.3 Depth to Max. Positive Moment, ft 6.1 9.8 Depth to Max. Negative Moment, ft 20.5 1 0 Depth to 1" Point of Zero Deflection, ft 10.4 18.4 [Note: *Depth is measured from the bottom of pile cap (top of the pile) to the pile tip. Table 2 - Lateral Load Capacity of 36-Inch Diameter CIDH Pile Design condition Free-Head I Fixed Head Pile Length* 25 feet or more* Allowable Deflection 1/4-inch at Pile Head Lateral Capacity, kips 29 76 Max. Positive Moment, ft-kip 142.5 120.0 Max. Negative Moment, ft-kip N/A -443.3 Depth to Max. Positive Moment, ft 8.3 12.9 Depth to Max. Negative Moment, ft N/A 0 Depth to 1St Point of Zero Deflection, ft 14.4 18.9 Note: *Depth is measured from the bottom of pile cap (top of the pile) to the pile tip. 107302005 R Equinox.doc 10 La Costa Towne Center Proposed Equinox Fitness Center April 17, 2015 7710 El Camino Real, Carlsbad, California Project No. 107302005 8.2. Spread Foundations Based on our review of the preliminary project plans (Mour, 2015), we understand that new spread foundations will be constructed in the easterly portion of the building to provide ad- ditional support to the roof and a new office/mezzanine area. Spread foundations may use an allowable bearing capacity of 3,000 psf for foundations bearing on compacted fill or compe- tent formational materials. This allowable bearing capacity may be increased by one-third when considering loads of a short duration such as wind or seismic forces. From a geotech- nical standpoint, spread footings should have an embedment depth of 18 inches. Thickness and reinforcement of the foundations should be in accordance with the recommendations of the project structural engineer. 8.2.1. Foundation Lateral Resistance For resistance to lateral loads, an allowable passive pressure exerted by an equivalent fluid weight of 300 pounds per cubic foot (pcf) may be used for foundations embedded in compacted fill or competent formational materials. This value assumes that the ground is horizontal for a distance of 10 feet or more, or three times the height generat- ing the passive pressure, whichever is greater. For 2:1 descending slope conditions, an allowable passive pressure exerted by an equivalent fluid weight of 140 pcf may be used. We recommend that the upper 1 foot of soil not protected by pavement or a con- crete slab be neglected when calculating passive resistance. For frictional resistance to lateral loads, we recommend a coefficient of friction of 0.3 be used between soil and concrete. if passive pressure and frictional resistance are to be used in combination, we recommend that the friction coefficient be reduced by two- thirds. The passive pressure values may be increased by one-third when considering loads of short duration such as wind or seismic forces. 107302005 R Equinox.doc 11 La Costa Towne Center Proposed Equinox Fitness Center April 17, 2015 7710 El Camino Real, Carlsbad, California Project No. 107302005 8.3. Interior Slab-On-Grade Repair Due to the presence of cracks and tilt in the interior concrete slab-on-grade floor within the build- ing, it is anticipated the slab-on-grade will be replaced. The replaced section of slab should be dowelled into the existing foundation and adjacent storage area slab. The removed portion of the slab should be replaced with a new slab 6 inches thick. The slab should be reinforced with No. 4 steel reinforcing bars placed at 12 inches on center, both ways. The reinforcement should be lo- cated in the middle 1/3 of the slab height. We recommend that "chairs" be utilized to aid in the appropriate placement of the reinforcement. The slab subgrade soils should be scarified to a depth of approximately 8 inches and watered or dried, as needed, to achieve generally consis- tent moisture contents at or near the optimum moisture content. The scarified materials should then be compacted to 90 percent relative compaction as evaluated by the ASTM interna- tional (ASTM) Test Method D 1557. The slab should be underlain by 2 inches of moist sand, a 10-mil visqueen vapor retarder, and 4 inches of clean sand or crushed rock. The slab should be dowelled approximately 12 inches into the existing footings at an angle of about 45 degrees. 8.4. Site Drainage Roof, pad, and slope drainage should be diverted away from slopes and structures to suitable discharge areas by nonerodible devices (e.g., gutters, downspouts, concrete swales, etc.). Posi- tive drainage adjacent to structures should be established and maintained. Positive drainage may be accomplished by providing drainage away from the foundations of the structure at a gradient of 2 percent or steeper for a distance of 5 feet outside the building perimeter, and further main- tamed by a graded swale leading to an appropriate outlet, in accordance with the recommendations of the project civil engineer and/or landscape architect. Surface drainage on the site should be provided so that water is not permitted to pond. A gradi- ent of 2 percent or steeper should be maintained over the pad area and drainage patterns should be established to divert and remove water from the site to appropriate outlets. 107302005 R Equinox.doc 12 La Costa Towne Center Proposed Equinox Fitness Center April 17, 2015 7710 El Camino Real, Carlsbad, California Project No. 107302005 Care should be taken by the contractor during grading to preserve any berms, drainage ter- races, interceptor swales or other drainage devices on or adjacent to the property. Drainage patterns established at the time of grading should be maintained for the life of the project. The property operators should be made very clearly aware that altering drainage patterns might be detrimental to slope stability and foundation performance. 8.5. Seismic Design Parameters Design of the proposed improvements should be performed in accordance with the requirements of governing jurisdictions and applicable building codes. Table 3 presents the seismic design parameters for the site in accordance with the CBC (2013) guidelines and adjusted NICER spectral response acceleration parameters (USGS, 2013). Table 3 - 2013 California Building Code Seismic Design Criteria Site Coefficients and Spectral Response Acceleration Parameters Values Site Class D Site Coefficient, Fa 1.068 Site Coefficient, F 1.583 Mapped Spectral Response Acceleration at 0.2-second Period, 5, 1.080 g Mapped Spectral Response Acceleration at 1.0-second Period, S1 0.417 g Spectral Response Acceleration at 0.2-second Period Adjusted for Site Class, SMS 1.153 g Spectral Response Acceleration at 1.0-second Period Adjusted for Site Class, SMI 0.660 g Design Spectral Response Acceleration at 0.2-second Period, SDS 0.769 g Design Spectral Response Acceleration at 1.0-second Period, S01 0.440 g 8.6. Concrete Flatwork Exterior concrete flatwork should be 4 inches in thickness and should be reinforced with No. 3 reinforcing bars placed at 24 inches on-center both ways. Exterior slabs should be un- derlain by 4 inches of clean sand. A vapor retarder is not needed for exterior flatwork. To reduce the potential manifestation of distress to exterior concrete flatwork due to movement of the underlying soil, we recommend that such flatwork be installed with crack-control joints at appropriate spacing as designed by the structural engineer. Before placement of concrete, the subgrade soils should be scarified to a depth of 8 inches, moisture conditioned 107302005 REquinox.doc 13 La Costa Towne Center Proposed Equinox Fitness Center April 17, 2015 7710 El Camino Real, Carlsbad, California Project No. 107302005 to generally above the laboratory optimum moisture content, and compacted to a relative compaction of 90 percent as evaluated by ASTM D 1557. Positive drainage should be estab- lished and maintained adjacent to fiatwork. 8.7. Corrosion Laboratory testing was performed on representative samples of the on-site soils to evaluate pH. and electrical resistivity, as well as chloride and sulfate contents. The pH and electrical resistivity tests were performed in accordance with the California Test (CT) 643 and the sul- fate and chloride tests were performed in accordance with CTs 417 and 422, respectively. These laboratory test results are presented in Appendix B. The results of the corrosivity testing indicated an electrical resistivity value of the sample tested as 380 ohm-cm, a soil pH value of 6.7, a chloride content of 1,560 ppm, and a sulfate content of 0.318 percent. Based on Caltrans criteria and American Concrete Institute (AC!) 318 guideline, the on-site soils would be classified as corrosive, which is defined as soil with more than 500 ppm chlorides, more than 0.1 percent sulfates, a pH less than 5.5, or an electrical resistivity of less than 1,000 ohm-cm. 8.8. Concrete Concrete in contact with soil or water that contains high concentrations of soluble sulfates can be subject to chemical deterioration. Laboratory testing indicated that a sample of the on-site soils had a sulfate content of 0.318 percent, which is considered to have a severe po- tential for sulfate attack (ACT, 2014). Due to the severe potential for sulfate attack and in accordance with AC! 318, we recommend that Type V cement be used for concrete struc- tures in contact with soil. in addition, we recommend that concrete in contact with soil possess a compressive strength of 4,500 psi and a water to cement ratio of no more than 0.45. 107302005 R Equinox.doc 14 La Costa Towne Center Proposed Equinox Fitness Center April 17, 2015 7710 El Camino Real, Carlsbad, California Project No. 107302005 In order to reduce the potential for shrinkage cracks in the concrete during curing, we rec- ommend that the concrete for proposed structures, be placed with a slump of 4 inches based on ASTM, C 143. The slump should be checked periodically at the site prior to concrete placement. We also recommend that crack control joints be provided in slabs in accordance with the recommendations of the structural engineer to reduce the potential for distress due to minor soil movement and concrete shrinkage. We further recommend that concrete cover over reinforcing steel for foundations be provided in accordance with ACJ 318. The struc- tural engineer should be consulted for additional concrete specifications. 8.9. Pre-Construction Meeting We recommend that a pre-construction meeting be held prior to commencement of grading. The owner or his representative, the agency representatives, the architect, the civil engineer, Ninyo & Moore, and the contractor should be in attendance to discuss the plans, the project, and the proposed construction schedule. 8.10. Plan Review and Construction Observation Ninyo & Moore should review the final project drawings and specifications prior to the commencement of construction. Our design recommendations may be modified depending on our plan review details. Ninyo & Moore should perform the needed observation and testing services during con- struction operations. In the event that it is decided not to utilize the services of Ninyo & Moore during construction, we request that the selected consultant provide the client with a letter (with a copy to Ninyo & Moore) indicating that they fully understand Ninyo & Moore's recommendations, and that they are in full agreement with the design parameters and recom- mendations contained in this report. Construction of proposed improvements should be performed by qualified contractors utilizing appropriate techniques and construction materials. I0730200 R Equinox.doc 1.5 La Costa Towne Center Proposed Equinox Fitness Center April 17, 2015 7710 El Camino Real, Carlsbad, California Project No. 107302005 9. LIMITATIONS The field evaluation, laboratory testing, and geotechnical analyses presented in this geotechnical report have been conducted in general accordance with current practice and the standard of care exercised by geotechnical consultants performing similar tasks in the project area. No warranty, expressed or implied, is made regarding the conclusions, recommendations, and opinions pre- sented in this report. There is no evaluation detailed enough to reveal every subsurface condition. Variations may exist and conditions not observed or described in this report may be encountered during construction. Uncertainties relative to subsurface conditions can be reduced through addi- tional subsurface exploration. Additional subsurface evaluation will be performed upon request. Please also note that our evaluation was limited to assessment of the geotechnical aspects of the project, and did not include evaluation of structural issues. This document is intended to be used only in its entirety. No portion of the document, by itself, is designed to completely represent any aspect of the project described herein. Ninyo & Moore should be contacted if the reader requires additional information or has questions regarding the content, interpretations presented, or completeness of this document. This report is intended for design purposes only. It does not provide sufficient data to prepare an accurate bid by contractors. It is suggested that the bidders and their geotechnical consultant per- form an independent evaluation of the subsurface conditions in the project areas. The independent evaluations may include, but not be limited to, review of other geotechnical reports prepared for the adjacent areas, site reconnaissance, and additional exploration and laboratory testing. Our conclusions, recommendations, and opinions are based on an analysis of the observed site conditions. If geotechnical conditions different from those described in this report are encountered, our office should be notified and additional recommendations, if warranted, will be provided upon request. It should be understood that the conditions of a site could change with time as a result of natural processes or the activities of man at the subject site or nearby sites. In addition, changes to the applicable laws, regulations, codes, and standards of practice may occur due to government ac- tion or the broadening of knowledge. The findings of this report may, therefore, be invalidated over time, in part or in whole, by changes over which Ninyo & Moore has no control. 107302005 R Equinox.doc 16 La Costa Towne Center Proposed Equinox Fitness Center April 17, 2015 7710 El Camino Real, Carlsbad, California Project No. 107302005 This report is intended exclusively for use by the client. Any use or reuse of the findings, conclu- sions, and/or recommendations of this report by parties other than the client is undertaken at said parties' sole risk,. I 107302005 R Equinox.doc 17 - La Costa Towne Center Proposed Equinox Fitness Center April 17, 2015 7710 El Camino Real, Carlsbad, California Project No. 107302005 10. REFERENCES American Concrete Institute (AC!), 2014, ACT 318 Building Code Requirements for Structural Concrete and Commentary. American Society of Civil Engineers (ASCE), 2010, Minimum Design Loads for Buildings and Other Structures, ASCE 7-10. Anderson, J.G, Rockwell, T.K., and Agnew, D.C., 1989, Past and Possible Future Earthquakes of Significance to the San Diego Region: Earthquake Engineering Research Institute (EERI), Earthquake Spectra, Volume 5, No. 2. Benton Engineering, Inc., 1977, Soils Investigation for Proposed Commercial Development, Southeasterly Area of La Costa Avenue and El Camino Real Intersection, Carlsbad, Cali- fornia: dated December 14. Brian Smith Engineers, Inc., 1982, As-Built Grading Plans for Plaza de la Costa Real: dated February 24. Building News, 2012, "Greenbook," Standard Specifications for Public Works Construction: BNI Publications. California Building Standards Commission, 2013, California Building Code, Title 24, Part 2, Volumes 1 and 2. California Department of Transportation (Caltrans), 2012, Corrosion Guidelines (Version 2.0), Divi- sion of Engineering and Testing Services, Corrosion Technology Branch: dated November. California Geological Survey, 2008a, Guidelines for Evaluating and Mitigating Seismic Hazards in California, CDMG Special Publication 117A. California Geological Survey, 2008b (revised), Earthquake Shaking Potential for California: Map Sheet 48. California Geological Survey (CGS), 1975, Character and Recency of Faulting, San Diego Met- ropolitan Area, California, Special Report 123. California Geological Survey, 2013, California Historical Earthquake Online Database, http ://redirect.conservation.ca.gov/cgs/rghm/guakes/historical/index.htm. Cao, T., Bryant, W. A., Rowshandel, B., Branum, D., and Willis, C. J., 2003, The Revised 2002 California Probabilistic Seismic Hazards Maps: California Geological Survey: dated June. Civillech Software, 2009, AllPile (Version 7.1 ]a), A Computer Program for Liquefaction and Settlement Analysis. Geotracker, 2015, http://geotracker.swrcb.ca.gov/: accessed in March. Google, Inc., 2015, http://www.googleearth.com: accessed in March. 107302005 REquinox.doc 18 dVill$f7444O'8r La Costa Towne Center Proposed Equinox Fitness Center April 17, 2015 7710 El Camino Real, Carlsbad, California Project No. 107302005 Harden, D.R., 1998, California Geology: Prentice Hall, Inc. Hartley, J.D., and Duncan. i.].., 1987, E' and Its Variation with Depth: American Society of Civil Engineers (ASCE), Journal of Transportation Engineering, Vol. 113, No. 5: dated September. Jennings, C.W., 2010, Fault Activity Map of California and Adjacent Areas: California Geologi- cal Survey, California Geologic Data Map Series, Map No. 6, Scale 1:750,000 Kennedy, M.P., Tan, S.S, Bovard, K.R., Alvarez, R.M., Watson, M.J., and Gutierrez, C.l., 2007, Geologic Map of the Oceanside 30'X 60' Quadrangle, California: California Geological Survey, Regional Geologic Map No. 2, Scale 1:100,000. Mour Group, 2015, Plans for La Costa Repositioning: dated January 30. Ninyo & Moore, in-house proprietary information. Norris, R.M., and Webb, R.W., 1990, Geology of California, Second Edition: John Wiley & Sons, Inc. Tan, 1995, Landslide Hazards in the Northern Part of the San Diego Metropolitan Area, San Diego County, California, Landslide Hazard Identification Map No. 33, Open-File Report 95-03, Scale 1:24,000. Treiman, J. A., 1993, The Rose Canyon Fault Zone Southern California: California Geological Survey Open-File Report 93-02. United States Department of the Interior, Bureau of Reclamation, 1989, Engineering Geology Field Manual. United States Department of the interior, 2014, Circular Area Earthquake Search website http://earthquake.usgs.gov/earthguakes/egarchives/epic/eøiccirc.php.: accessed April. United States Geological Survey, 2008, National Seismic Hazard Maps - Fault Parameters, World Wide Web, http://geohazards.uss.gov/cfusion/hazfaults search!. United States Geological Survey, 2012, Encinitas Quadrangle, California-San Diego County, 7.5-Minute Series (Topographic): Scale 1:24,000. United States Geological Survey (USGS), 2013, U.S. Seismic Design Maps website, http://geohazards.usgs.gov/designmaps/us/application.j,hp. AERIAL PHOTOGRAPHS Source Date Flight Numbers Scale USDA I March 30, 1953 I AXN-2M J 68 and 69 I 1:24,000 107302005 R Equinox.doc 1.9 San Diego County SCALE IN FEET 0 1,200 2,400 4,800 NOTE DIRECTIONS, DIMENSIONS AND LOCATIONS ARE APPROXIMATE Ifinf/o&iytow PROJECT NO DATE 107302005 4/15 SITE LOCATION LA COSTA TOWNE CENTER PROPOSED EQUINOX FITNESS CENTER -- - 7710 EL CAMINO REAL CARLSBAD, CALIFORNIA FIGURE I 4/15 ]U(jIJZUUO 4(/,,jp, &400re PROJECT NO. DATE N SCALE IN FEET 0 30 60 120 BORING LOCATIONS LA COSTA TOWNE CENTER PROPOSED EQUINOX FITNESS CENTER 7710 ELCAMINO REAL CARLSBAD, CALIFORNIA I I I I I I I I I LEGEND PROJECT AREA 4 B-3 BORING TD=O8 TD=TOTAL DEPTH IN FEET NOTE DIRECTIONS, DIMENSIONS AND LOCATIONS ARE APPROXIMATE I I" ILI I I 1 I I I FIGURE 2 - c( I\ilzli \ Q o a - ! %? , ! , 1LI SITE A y Td - IF il r TQya' T . r I 'S-'S_ J _p'_• /_' ', s N I I Qvop10 Q v 1 LEGEND Qpe PARALIC ESTUARINE DEPOSITS ?rrn Qya YOUNG ALLUVIAL FLOODPLAIN DEPOSITS Qoa OLD ALLUVIAL FLOODPLAIN DEPOSITS ) jj Qvop0 VERY OLD PARALIC DEPOSITS, UNIT 10 Ovop, VERY OLD PARALIC DEPOSITS, UNIT 10 Tt TORREY SANDSTONE NEDY M P AND TANS S 2035 GEOLOGIC MAP OF THE OCEANS DE 30 X 60 QUADRANGLE CALIFORNIA Id DELMAR FORMATION Tsa SANTIAGO FORMATION M METASEDIMENTARY AND METAVOLCANIC ROCKS UNDIVIDED N 65 U FAULT - SOLID WHERE ACCURATELY " LOCATED, DASHED WHERE APPROXIMATE, DOTTED WHERE CONCEALED. ARROW SCALE IN FEET AND NUMBER INDICATE DIRECTION AND ANGLE OF DIP OF FAULT PLANE I NOTES DIRECTIONS DIMENSIONS AND LOCATIONS ARE APPROXIMATE 0 2.000 4,000 I(Ingo&It'ionvI GEOLOGY FIGURE PROJECT NO DATE LA COSTA TOWNE CENTER PROPOSED EQUINOX FITNESS CENTER 771OELCAMINOREAL 3 107302005 4/15 CARLSBAD, CALIFORNIA N CALIFORNIA ,,<O 0NT 44 F Baker 0 ol. (.1 Mojave 40 ek 0 S Baratna 0 Kern County j Los Angeles County 111,, 0 izz T4 o 40- 4E,1'/z- IiPATER Palmdale VtoryB; SAN I • CAYETA '2 p N° k 10 oA,, jYo S'X'..USANA :oL \.11 k44f •Blc2 Bear r,ti 5f 141( 'JAO "S" C C MONICA 0S 0UNTAIN iPOi1tnIne Pa/ms San 'ON \O / 'Si CREEK t • MALIBU COAST 8uito B ef"a'din. County ,t ', ' BA - RN/MG Pver'd County Dosed Rjur;j \ (.,J/i&,p/0Nd 41 "S'\ Santa 1 d '.o •/4na ou, 1. 00 '0 0 S -? ' - N lao/n ' 00 '+ "-'San Teinenula ----------- 16, Rversl .."- -'.'. ---'.-+- - 0,0 •' N ' '"-------------------------- Sun Diego Coo Y 'N 'IVA 1OGE 0+;\ce;7 SITE 0' Eseortdid', 0 tp 14, C,, 7 4, -, 0 0 0 4, \0San 0 'p 0 t 0 U Pa C/ f i c Chula S A Ocean County ----------------- nperoI County 1'O 1<1 EiCentro SOURCE JENNINGS C W AND BRYANT WA. 2010. FAULT ACTIVITY MAP OF CALIFORNIA CALIFORNIA GEOLOGICAL SURVEY CALIFORNIA FAULT ACTIVITY HISTORICALLY ACTIVE QUATERNARY (POTENTIALLY ACTIVE) SCALE IN MILES HOLOCENE ACTIVE I I LATE QUATERNARY ---- STATE/COUNTY BOUNDARY 0 30 60 (POTENTIALLY ACTIVE) NOTE DIRECTIONS. DIMENSIONS AND LOCATIONS ARE APPROXIMATE /tin,qo&IpjorITe FAULT LOCATIONS FIGURE PROJECT NO. DATE LA COSTA TOWNE CENTER PROPOSED EQUINOX FITNESS CENTER 7710 ELCAMINO REAL 4 107302005 4/15 CARLSBAD, CALIFORNIA _ • we — — an — I — m am — 44f NOTE t)IMENSI( NS DIRECTIONS AND LOCATIONS ARC APPROXIMATE SO RCL MOOR (,R01 IP EASEL 4 40, I SCALE IN FEET 40 80 La Costa Towne Center Proposed Equinox Fitness Center April 17, 2015 7710 El Camino Real, Carlsbad, California Project No. 107302005 APPENDIX A BORING LOGS Field Procedure for the Collection of Disturbed Samples Disturbed soil samples were obtained in the field using bulk samples. Bulk samples of represen- tative earth materials were obtained from the exploratory borings. The samples were bagged and transported to the laboratory for testing. Field Procedure for the Collection of Relatively Undisturbed Samples Relatively undisturbed soil samples were obtained in the field using the following method. The Modified Split-Barrel Drive Sampler The sampler, with an external diameter of 3 inches, was lined with 1-inch long, thin brass rings with inside diameters of approximately 2.4 inches. The sample barrel was driven into the ground with the weight of a hammer of the drill rig in general accordance with ASTM D 3550. The driving weight was permitted to fall freely. The approximate length of the fall, the weight of the hammer, and the number of blows per foot of driving are presented on the boring logs as an index to the relative resistance of the materials sampled. The samples were removed from the sample barrel in the brass rings, sealed, and transported to the laboratory for testing. 107302005 R Equinox.doc U) W b 0 Z U) BORING LOG EXPLANATION SHEET 9 75 Cl) w > co U) M >- 0 Bulk sample. I Modified split-barrel drive sampler. 2-inch inner diameter split-barrel drive sampler. No recovery with modified split-barrel drive sampler, or 2-inch inner diameter split-barrel - - drive sampler. I Sample retained by others. - P Standard Penetration Test (SPT). No recovery with a SPT. XX/XX Shelby tube sample. Distance pushed in inches/length of sample recovered in inches. No recovery with Shelby tube sampler. Continuous Push Sample. 10__ Seepage. Groundwater encountered during drilling. w Groundwater measured after drilling. - M SM MAJOR MATERIAL TYPE (SOIL): - - Solid line denotes unit change. 9 0 CL Dashed line denotes material change. Attitudes: Strike/Dip - - Bedding Contact 15 - - - j: Joint f: Fracture F: Fault - - cs: Clay Seam s: Shear - - bss: Basal Slide Surface sf: Shear Fracture sz: Shear Zone - - sbs: Shear Bedding Surface The total depth line is a solid line that is drawn at the bottom of the boring. 20 - - - BORING LOG #07 U & Explanation of Boring Log Symbols PROJECT NO. DATE FIGURE SOIL CLASSIFICATION CHART PER ASTM D 248 PRIMARY SECONDARY DIVISIONS DIVISIONS GROUP SYMBOL-. S1UJ2tLVI CLEAN GRAVEL g.g GW well-graded GRAVEL less than 5% fines -e GP poorly graded GRAVEL GW-GM well-graded GRAVEL with silt GRAVEL GRAVEL with more than DUAL GP-GM poorly graded GRAVEL with silt 50% of CLASSIFICATIONS coarse 5% to 12% fines GW-GC well-graded GRAVEL with day fraction GP-GC poorly graded GRAVEL with day retained on No. 4 sieve GRAVEL with GM silty GRAVEL COARSE. FINES GRAINED more than GC clayey GRAVEL __________ GC-GM silty, clayey GRAVEL SOILS 12% fines more than CLEAN SAND SW well-graded SAND 50% retained on No. 200 less than 5% fines SP poorly graded SAND sieve SW-SM well-graded SAND with silt SAND SAND with 50% or more DUAL SP-SM poorly graded SAND with silt of coarse CLASSIFICATIONS SW-SC well-graded SAND with day fraction 5% to 12% fines ____________ SP-SC No. 4 sieve poorly graded SAND with day passes SM silty SAND SAND with FINES SC clayey SAND more than 12% fines SC-SM silty, clayey SAND CL lean CLAY SILT and INORGANIC ML SILT CLAY liquid limit CL-ML silty CLAY OL (P1 >4) organic CLAY FINE- less than 50% GRAINED ORGANIC SOILS OL (P1 <4) organic SILT 50% or CH fat CLAY more passes SILT and INORGANIC No. 200 sieve CLAY I ____________ MH __________ elastic SILT liquid limit OH (plots on or organic CLAY 50% or more ORGANIC "A" above -line) OH (plots below organic SILT "A" -line) Highly Organic Soils PT Peat GRAIN SIZE 'SIEVE, GRAIN SIZE SIZE APPROXIMATE: SIZE Boulders >12" >12" Larger than basketball-sized Cobbles 3- 12" 3- 12" Fist-sized to basketball-sized Coarse 3/4-3" 3/4-3" Thumb-sized to fist-sized Gravel Fine #4 - 3/4" 0.19- 075" Pea-sized to thumb-sized Coarse #10 - #4 0.079 - 0.19" Rock-salt-sized to pea-sized Medium #40 - #10 0.017 - 0.079" Sugar-sized to Sand rock-salt-sized Fine #200 - #40 0.0029- Flour-sized to 0.017" sugar-sized Fines Passing #200 <0.0029 Flour-sized and smaller PLASTICITY CHART 8. w z >. I- U I- U) -1 a- 10 20 30 40 50 60 70 80 90 100 LIQUID IMIT (LL), % .iHh•u.rI.I -, •UIU4•UU I•la WE E .urauuuua APPARENT DENSITY - COARSE-GRAINED SOIL 1 SPOOLING CABLE OR CATHEA) j AUTOMATIC TRP HAMMER iDENSIir MODIFIED MODIFIED SPT SPLIT BARREL _______ SPT SPLIT BARREL ________ Very Loose I 54 8 ! 3 C 5 Loose 5-10 9-21 4-7 6-14 Medium Dense 11-30 22-63 8-20 15-42 Dense 31-50 64-105 21-33 43-70 Very Dense >50 >105 >33 >70 CONSISTENCY - FINE-GRAINED SOIL SPOOLING CABLE OR CATHEAD AUTOMATIC TRIP HAMMER I. Very Soft <2 <3 <1 <2 Soft 2-4 3-5 1-3 2-3 Firm 5-8 6-10 4-5 4-6 Stiff 9-15 11-20 6-10 7-13 Very Stiff 16-30 21-39 11-20 14-26 Hard >30 >39 >20 >26 lfh 7 .Vg&ffinur USCS METHOD OF SOIL CLASSIFICATION Explanation of USCS Method of Soil Classification PROJECO. I DATE I FIGURE I Cl, W -j b 0 LI. l5 -J . w 0 C.) - U) Z ,, Z c,i C.) DATE DRILLED 3/16/15 BORING NO. B-i GROUND ELEVATION 53'± (MSL) SHEET I OF METHOD OF DRILLING 6" Diameter Solid-Stem Auger (Mini Mole) (Pacific) DRIVE WEIGHT 140 Lbs. (Cathead) DROP 30" SAMPLED BY CKV LOGGED BY CKV REVIEWED BY RDH - a,1?3 DESCRIPTION/INTERPRETATION ___ = _____ ONCRETE: pproximately 4 inches thick. SP SC EDDING SAND: rown, moist, loose, poorly graded SAND; approximately i-inch thick; vapor retarder t1below - sand. FILL: - Light brown, moist, medium dense, clayey fine to medium SAND with silt. I 29_ - - CL Géfff,siliCLAYwithfhesan 10 - ! 35 35 16.9 108.5 Brown. Hard. w iTf flfT -SC Lijhi T&brwTii,iTs TI€ CL Gi,haii1ryrAYwiihTnesanc --- _______________ DELMAR FORMATION: 20- Grayish olive, moist, weakly indurated, clayey SILTSTONE. I 48 20.2 103.0 67 21.2 95.8 - 50/6' Moderately indurated. 30--M, Total Depth = 30.5 feet. - Groundwater not encountered. Backfilled with approximately 6.0 cubic feet of bentonite grout and capped with concrete shortly after drilling on 3/16/15. - I4QtL Groundwater, though not encountered at the time of drilling, may rise to a higher - level, due to seasonal variations in precipitation and several other factors as discussed in - the report. - The ground elevation shown above is an estimation only. it is based on our interpretations of published maps and other documents reviewed for the purposes of this - - evaluation. It is not sufficiently accurate for preparing construction bids and design 40 documents. BORING LOG 1 LA COSTA TOWNE CENTER PROPOSED EQUINOX FITNESS CENTER &4 OTt 1tIIqo 7710 EL CAMINO REAL, CARLSBAD, CALIFORNIA IF PROJECT NO. I DATE I FIGURE 107302005 I 4/15 I A-i W co 0. LL 0)0 CO M ca !. LL 0 0 ca co DRIVE Z co DATE DRILLED 3/16/15 BORING NO. B-2 GROUND ELEVATION 53' ± (MSL) SHEET I OF METHOD OF DRILLING 6" Diameter Solid-Stem Auger (Mini Mole) (Pacific) WEIGHT 140 Lbs. (Cathead) DROP 30" SAMPLED BY CKV LOGGED BY CKV REVIEWED BY RDH, DESCRIPTION/INTERPRETATION 0 - - ____ ____ - _____ SP CONCRETE: kpproxirnately 4.5 inches thick. CL BEDDING SAND: Brown, moist, loose, poorly graded SAND; approximately i-inch thick; vapor retarder below sand. FILL: - Brown, moist, stiff, silty CLAY with fine sand. - 26 Very stiff. - DELMAR FORMATION: - Light grayish olive, moist, weakly indurated, clayey SILTSTONE. 10 50/5' 14.0 110.5 - 50/3" Moderately indurated. - ' Difficult drilling. - - 20-- -- - - - - - - - - - LToi tJ lnèd siid rFDffE - - Total Depth = 20.3 feet (Refusal). - Groundwater not encountered. - Backfilled with approximately 4.0 cubic feet of bentonite grout and capped with concrete - - shortly after drilling on 3/16/15. Groundwater, though not encountered at the time of drilling, may rise to a higher level due to seasonal variations in precipitation and several other factors as discussed in - - the report. - The ground elevation shown above is an estimation only. It is based on our - interpretations of published maps and other documents reviewed for the purposes of this 30- evaluation. It is not sufficiently accurate for preparing construction bids and design - - 40 documents. BORING LOG Al/DUD & LA COSTA TOWNE CENTER PROPOSED EQUINOX FITNESS CENTER 7710 EL CAMINO REAL, CARLSBAD, CALIFORNIA V — — PROJECT NO. DATE FIGURE 107302005 4/15 A-2 Co CL DATE DRILLED 3/12/15 BORING NO. B-3 - . LL. C.) - Z GROUND ELEVATION 53'± (MSL) SHEET I OF 2 CO w METHOD OF DRILLING 6" Diameter Hollow-Stem Auger (L-10-T Trackmounted) (CaiPac) IL c CO C/) 0 W >- ° DRIVE WEIGHT 140 Lbs. (Auto-Trip Hammer) DROP 30" C-) SAMPLED BY AQP/GS LOGGED BY AQP/GS REVIEWED BY RDH DESCRIPTION/INTERPRETATION 0 ASPHALT CONCRETE: \Approximately CL 4 inches thick. FILL: Olive gray, moist, firm, silty CLAY; little sand. DELMAR FORMATION: - Olive gray, moist, moderately indurated, clayey SILTSTONE. 78 19.4 110.1 - - - - - - - - Oil iiied ThrS1iN TrinU - 10 50/6 16.4 108.3 SANDSTONE. 50/6 20 - - - - - - or ________ 50/6' Concretionary layer from 26' to 29'. 30 50/3"- — - — - - Yi1 Ttndre e - - — \SANDSTONE. Total Depth = 30.8 feet (Refusal). Groundwater not encountered. Backfiuled with approximately 6.0 cubic feet of bentonite grout and capped with concrete shortly after drilling on 3/12/15. Groundwater, though not encountered at the time of drilling, may rise to a higher level, due to seasonal variations in precipitation and several other factors as discussed in the report. The ground elevation shown above is an estimation only. It is based on our interpretations of published maps and other documents reviewed for the purposes of this evaluation. It is not sufficiently accurate for preparing construction bids and design 41) documents. BORING LOG Nlnuo& LA COSTA TOWNE CENTER PROPOSED EQUINOX FITNESS CENTER 7710 EL CANGNO REAL, CARLSBAD, CALIFORNIA — V - PROJECT NO. DATE FIGURE 107302005 4/15 A-3 La Costa Towne Center Proposed Equinox Fitness Center April 17, 2015 7710 El Camino Real, Carlsbad, California Project No. 107302005 APPENDIX B LABORATORY TESTING Classification Soils were visually and texturally classified in accordance with the Unified Soil Classification System (USCS) in general accordance with ASTM D 2488. Soil classifications are indicated on the logs of the exploratory borings in Appendix A. In-Place Moisture and Density Tests The moisture content and dry density of relatively undisturbed samples obtained from the ex- ploratory borings were evaluated in general accordance with ASTM D 2937. The test results are presented on the logs in Appendix A. Gradation Analysis A gradation analysis test was performed on a selected representative soil sample in general ac- cordance with ASTM D 422. The grain-size distribution curve is shown on Figure B-i. These test results were utilized in evaluating the soil classifications in accordance with the USCS. Afterbere Limits Tests were performed on selected representative fine-grained soil samples to evaluate the liquid limit, plastic limit, and plasticity index in general accordance with ASTM D 4318. These test re- sults were utilized to evaluate the soil classification in accordance with USCS. The test results and classifications are shown on Figure B-2. Consolidation Tests Consolidation tests were performed on selected relatively undisturbed soil samples in general accordance with ASTM D 2435. The samples were inundated Auring testing to represent adverse field conditions. The percent of consolidation for each load cycle was recorded as a ratio of the amount of vertical compression to the original height of the sample. The results of the tests are summarized on Figures B-3 and B-4. Direct Shear Test A direct shear test was performed on a relatively undisturbed sample in general accordance with ASTM D 3080 to evaluate the shear strength characteristics of the selected material. The sample was inundated during shearing to represent adverse field conditions. The results are shown on Figure B-5. 107302005 R Equinox.doc Soil Corrosivity Tests Soil p1., and resistivity tests were performed on a representative sample in general accordance I nm a ml i • . i P l I I I I • ' LCcordance iccordance La Costa Towne Center Proposed Equinox Fitness Center April 17, 2015 7710 El Camino Real, Carlsbad, California Project No. 107302005 Expansion Index Test The expansion index of a selected material was evaluated in general accordance with ASTM D 4829. A specimen was molded under a specified compactive energy at approximately 50 percent saturation. The prepared i-inch thick by 4-inch diameter specimen was loaded with a surcharge of 144 pounds per square foot and was inundated with tap water. Readings of volumetric swell were made for a period of 24 hours. The results of the test are presented on Figure B-6. 70.0 I LU 0 60.0 >. 600 w z LL 40.0 I— z aoo a. 200 1000 800 10.0 00 100 10 1 0.1 0.01 0.001 0.0001 GRAVEL I SAND FINES Coarse Fine Coarsel Medium 1 Fine ISILT CLAY U.S. STANDARD SIEVE NUMBERS HYDROMETER GRAIN SIZE IN MILLIMETERS Symbol Sample Depth Liquid Plastic Plasticity D10 D D6o C C Passing USC Location (It) Limit Limit Index No. 200 (%) S B-i 1.0-6.0 - -- -- - - - 38 Sc PERFORMED IN GENERAL ACCORDANCE WITH ASTM 0422 /.fI11o&4fvMwe PROJECT NO. DATE 107302005 4/15 I07302005SIEVE B-i Q I O-6OiK GRADATION TEST RESULTS LA COSTA TOWNE CENTER PROPOSED EQUINOX FITNESS CENTER 7710 EL CAMINO REAL CARLSBAD, CALIFORNIA FIGURE L1 SYMBOL LOCATION DEPTH (FT) LIQUID LIMIT, LL PLASTIC LIMIT, PL PLASTICITY INDEX, P1 UsCS CLASSIFICATION (Fraction Finer Than No. 40Sieve) USCS (Entire Sample) • B-i 17.0-19.0 44 21 23 CL CL • B-2 1.0-5.0 41 20 21 CL CL NI - INUIA I 1.S NON-FLASTIC 60 50 CH or OH a. 40 C z 30 0 I— C') 20 0. 10 CL or OL MHor ML or OL 041 0 10 20 30 40 50 80 70 80 90 100 LIQUID LIMIT, LL PERFORMED IN GENERAL ACCORDANCE WITH ASTM D 4318 F.f1fliO4hlunv ATTERBERG LIMITS TEST RESULTS FIGURE PROJECT NO. DATE LA COSTA TOWNE CENTER PROPOSED EQUINOX FITNESS CENTER 107302005 4(15 7710 EL CAMINO REAL B-2 10702005 A1TERBRG pUo 1 (BUifl) 0.1 -4.0 - , -3.0 z 0 -2.0 a. -1.0 0.0 1.0 2.0 2 3.0 w C) 4.0 a. 5.0 Cl) LL 6.0 a. 7.0 8.0 9.0 10.0 STRESS IN KIPS PER SQUARE FOOT 1.0 10.0 - Seating Cycle Sample Location B-I S Loading Prior to Inundation Depth (ft.) 10.0-11.5 Loading After Inundation Soil Type CL -"+- Rebound Cycle PERFORMED IN GENERAL ACCORDANCE WITH ASTM D 2435 FfIno&Aftoure CONSOLIDATION TEST RESULTS PROJECT NO, DATE LA COSTA TOWNE CENTER PROPOSED EQUINOX FITNESS CENTER 7710 EL CAMINO REAL 107302005 4/15 CARLSBAD, CALIFORNIA FIGURE B-3 101302005 CONSOUDATION 8-10 10.0-11 STRESS IN KIPS PER SQUARE FOOT 0.1 1.0 10.0 100.0 -4.0 -3O. 2 - 0 - U) -2.0 -to 0.0 1.0 2.0 3.0 4.0 5.0 6.0 7.0 8.0 9.0 10.0 - Seating Cycle Sample Location B-i Loading Prior to Inundation Depth (ft.) 15.5-16.5 a Loading After Inundation Soil Type SC -. Rebound Cycle PERFORMED IN GENERAL ACCORDANCE WITH ASTM D 2435 IfIiio&I,1tuir CONSOLIDATION TEST RESULTS PROJECT NO, DATE LA COSTA TOWNE CENTER PROPOSED EQUINOX FITNESS CENTER rno EL CAMINO REAL 107302005 4/15 CARLSBAD, CALIFORNIA FIGURE B-4 1072005 CONSOLIDATION B-i 0 IS B-IS Szlt 5000 - - _*•_i_ - 4000 - - - - - - LL 3000- co w too -- a: - CO) . 2000.7__ 1000.- ;;Woo 0±xxiiiI_ 0 1000 2000 3000 4000 5000 NORMAL STRESS (PS F) PERFORMED IN GENERAL ACCORDANCE WITH ASTM D 3080 4Ino&Iytuwc DIRECT SHEAR TEST RESULTS FIGURE LA COSTA TOWNE CENTER PROPOSED EQUINOX FITNESS CENTER PROJECT NO. DATE 7110 EL CAMINO REAL B-5 107302005 4/15 CARLSBAD, CALIFORNIA Description Symbol Sample Location Depth (ft) Shear Strength Cohesion, c (psf) Friction Angle 4 ' (degrees) Soil Type Sandy CLAY B-I 10.0-11.5 Peak 220 30 CL Sandy CLAY - - X - B-I 10.0-11.5 Ultimate 220 28 CL 10730209 SHEAR B-i @ IQO-IlSids SAMPLE LOCATION SAMPLE DEPTH (FT) INITIAL MOISTURE (%) COMPACTED DRY DENSITY (PCF) FINAL MOISTURE (%) VOLUMETRIC SWELL (IN) EXPANSION INDEX POTENTIAL EXPANSION B-2 1.0-5.0 12.5 99.1 24.9 0.041 41 Low PERFORMED IN GENERAL ACCORDANCE WITH 0 UBC STANDARD 18-2 ASTM D 4829 tPlay, a & *8 or P. PROJECT NO, I DATE 107302Q5 El PlO? lJd EXPANSION INDEX TEST RESULTS LA COSTA TOWNE CENTER PROPOSED EQUINOX FITNESS CENTER 7710 EL CAMINO REAL CARLSBAD, CALIFORNIA FIGURE SAMPLE LOCATION SAMPLE DEPTH (FT) p H' RESISTIVITY' (Ohm-cm) SULFATE CONTENT' CHLORIDE CONTENT 3 (ppm) (ppm) N 8-2 1.0-5.0 6.7 380 3.180 0.318 1.560 PERFORMED IN GENERAL ACCORDANCE WiTH CALIFORNIA TEST METHOD 643 2 PERFORMED IN GENERAL ACCORDANCE WITH CALIFORNIA TEST METHOD 417 PERFORMED IN GENERAL ACCORDANCE WITH CALIFORNIA TEST METHOD 422 tf,ljlrv&*ulmrp- CORROSIVITY TEST RESULTS FIGURE PROJECT NO. DATE LA COSTA TOWNE CENTER PROPOSED EQUINOX FITNESS CENTER 7710 EL CAMINO REAL B-7 107302005 4/15 CARLSBAD, CALIFORNIA 107302005 CORROSIMY Page l,d3