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Home My WebLink AboutPD 2019-0032; GOERTZEN RESIDENCE; GEOTECHNICAL SITE INSPECTION - REVISED; 2020-02-25, .. '11!11'n!D,_ -------------------------------- February 25, 2020 Greg Goertzen 3466 Camino Michelle Carlsbad, California 92009 SUBJECT: Dear Mr. Goertzen: SCOPE File No. 1127H6-19 SITE INSPECTION -Revised Proposed Residential Building Site El Fuerte Street and Acuna Court City of Carlsbad P.O. Box 1195 Lakeside, California 92040 (619) 443-0060 In accordance with your request, a Site Inspection has been performed at the subject site. The purpose of this investigation was to examine existing site conditions and provide engineering recommendations for the proposed single family residence. FIELD INSPECTION In order to accomplish this purpose, a representative of this firm visited the site, reviewed the topography and site conditions and visually and textually classified the surface and near surface soils. Representative samples of the on-site soils were obtained from 2 test explorations approximately 4 feet in depth and tested for density, shear strength and expansive characteristics. SITE CONDITIONS The subject site is located on the northwest comer of El Fuerte Street and Acuna Court. The property is a moderately sloped lot descending from the northeast to the southwest of the vacant site. Neighboring properties are occupied by residential structures. Fill materials were not encountered during the course of this inspection. 1 Greg Goertzen File No. 1127H6-19 February 25, 2020 SOIL CONDITIONS Soils encountered in the test explorations are topsoils consisting of loose, dark orange brown, silty sands with organic materials to approximately 6 to 12 inches in depth. These surface soils were underlain by native soils consisting of medium dense to dense, tan to red brown, silty sands with light clay to the bottom of the explorations, approximately 4 feet in depth. We did not encountered bedrock during our onsite visit. There is an area of possible undocumented fill at the southwest portion of the site along El Fuerte Street. This area will be inspected during the grading and removed during the keying process. As indicated, the limits of the fill are approximate and should be confirmed during grading. The soils we encountered were considered to be moderately expansive with respect to change in volume with change in moisture content. CONCLUSIONS AND RECOMMENDATIONS 1. A representative sample of the foundation soil was remolded to 90% of maximum dry density. Based on the following test results, a safe allowable bearing value of at least 2000 pounds per square foot for 12 inch deep footings may be used in designing the foundations and slab for the proposed structures. This value may be increased by one third for wind and/or seismic loading. This value may be increased by 20 percent for each additional foot of depth and or width to a maximum of 3 times the designated value. Maximum Dry Density Optimum Moisture Angle of internal friction Cohesion Unit weight Expansion Index65 121.5 pcf 12.1% 29° 391 psf 109.5 pcf 2. Lateral resistance to horizontal movement may be provided by the soil passive pressure and friction of concrete to soil. An allowable passive pressure of 250 pounds per square foot per foot of depth may be used. A coefficient of friction of 0.35 is recommended. The soils passive pressure may be increased by 1/3 for wind and seismic loading. 2 Greg Goertzen File No. 1127H6-19 February 25, 2020 3. The seismic parameters for the site coordinates 33.09791 °N, 117.247985°W for assumed Site Class D, Risk Category II are as follows: • Ss = 1.035 g • s, =0.401 g GRADING Sms = 1.124 g Sm1 = 0.641 g Scts = 0.749 g Sct1 = 0.427 g 2. The loose native soils encountered during this inspection should not be used to support proposed structures. It is our recommendation that these soils in proposed building areas be removed to competent natural ground prior to placement of import soils and recompacted to 90 percent compaction to an anticipated depth of 2 feet in accordance with the Grading Specifications in this report. The recompaction should extend at least 5 feet outside the proposed building footprints. Any organic or other deleterious material that may be encountered should be removed prior to recompaction. 3. The keyway should be a minimum of 3 feet in depth and 12 feet wide and will follow the fill slope. 4. The cut portion of the cut/fill transition shall be undercut and over-excavated to a minimum of 3 feet in depth from finish grade. 5. There should be a minimum of 12 inches of uniformly compacted fill under the proposed footings. A representative of our company should observe the footing excavations prior to the forms and reinforcing steel being placed. 6. Utility trench backfill beneath structures, pavements and hardscape should be a SE 30 soil or less and compacted to a minimum of 90% relative compaction. The upper 12 inches of subgrade beneath slabs and paved areas should be compacted to al least 95% relative compaction. Any organic or other deleterious material that may be encountered should be removed prior to recompaction. We should be present for the trench backfill. 7. All graded fill slopes should be graded to a maximum of a 2:1 gradient. Graded cut slopes will be stable at a 2:1 gradient. The graded slopes in compliance with current grading ordinances will be considered surficially stable. 3 Greg Goertzen File No. 1127H6-19 February 25, 2020 FOUNDATIONS 4. The foundation soils are moderately expansive. The following foundation depth is a minimum due to the expansive nature of the soil and must be used in order to prevent possible damage to the proposed structures from adverse effects of expansive soils. These recommendations for footings and slabs are based upon the soil type only and do not take into consideration the structural requirements. ■ Use continuous exterior perimeter foundations (including door openings). They should be founded a minimum of 18 inches below lowest adjacent grade. ■ Interior footing depth should exceed 12 inches below top of slab or 12 inches for raised floor construction. ■ Reinforce continuous concrete foundations as a beam with at least one #4 bar positioned 3 inches above the bottom of footing and one #4 bar positioned 1 inch below top of foundation or top of finish floor. 5. Concrete Slab-On-Grade, SOG, should be designed by the project's structural engineer based on anticipated loading conditions. We recommend that conventional reinforced concrete SOG for this project be founded on 4 inches of Class II Virgin Aggregate Base (with approximately 2% +/-over optimum moisture content and 90% compaction, relative to the lab maximum dry density, ASTM D 1557), overlying a 12 inch thick zone of adequately placed and compacted structural fill. We recommend that a moisture barrier be provided by a membrane, visqueen 10 mils in minimum thickness or equivalent, be placed at top of well compacted Class II Aggregate Base, then covered with 2 inches of moist clean sand having a minimum sand equivalent of 30 when tested in accordance with the American Society of Testing and Materials test method 'ASTM D1555. Floor slabs, as a minimum, should be 5 inches thick with #4 reinforcing steel at 16" on-center each way. Reinforcement should be placed at mid-height of the slab. The final slab thickness and reinforcement should be determined by the structural design engineer. Control joints should be provided in accordance with the recommendations of the structural design engineer. 6. The structural engineer should design all concrete flatwork and structural concrete to meet the sulfate exposure category ACI 318 unless corrosion testing is provided. Sulfate testing should be done in the import material during the grading operation. The sample should be located at a depth of 12 to 18 inches subgrade. 4 Greg Goertzen File No. 1127H6-19 February 25, 2020 7. We should be consulted to review the structural and architectural plans to detennine if they comply with our geotechnical recommendations. RETAINING WALLS 8. It is our understanding the proposed retaining wall is Regional Standard C-04 from the San Diego County Regional Standard Drawings. 9. Resistance to horizontal movement may be provided by allowable soil passive pressure and/or coefficient of friction of concrete to soil. The allowable passive pressure may be assumed to be 250 psf at the surface and increasing at the rate of 200 psf per foot of depth. These pressures assume a frictionless vertical element, no surcharge and level adjacent grade. If these assumptions are incorrect, we should be contacted for values that reflect the true conditions. The values are for static conditions and may be increased 1/3 for wind and/or seismic loading. The coefficient of friction of concrete to soil may be safely assumed to be 0.3. 10. Active pressures for the design of unrestrained, cantilevered, individually supported retaining walls, capable of slight movement away from load may be considered to be equivalent to the pressures developed by a fluid with a density of 40 pcf. This value assumes a vertical, smooth wall and level drained backfill. We should be contacted for new pressures if these assumptions are incorrect. Restrained walls, incapable of movement away from load without damage such as basement walls, should be designed for the additional equivalent fluid of 32 pcf applied triangularly for cohesionless type soils and trapezoidally for cohesive type soils. 11. If the back fill is 2: 1 slope behind the top of the wall, the wall should be designed as the additional wall height for the actual wall height divided by 2. e.g.: If the actual retaining wall is 6 feet from the top of footing to the top of the wall, then the wall height design load should be 6 feet plus 6'/2 = 3 feet. The wall should be designed for 9 feet in height. RETAINING WALL DRAINAGE For the restraining walls, the waterproofing: BG 2000 by Multicoat Corporation, being a water base coating, follows the manufacture for their recommendation. Place coating on top of footing and up on the inside of emu wall to the top below the proposed slab ( or equal). All wall drains shall be of 4 inch slotted drain pipe by (SDR-35-4") with a sock coverage throughout. The pipe shall have a minimum of 1 percent fall. Place Tencate geosynthectics- 5 Greg Goertzen File No. 1127H6-19 February 25, 2020 mirafi N-140, nonwoven ( or equal) in a burrito wrap around the ¾ inch washed crushed rock. The minimum thickness of crushed rock around the pipe is 4 inches on all sides. The contractor shall vibrate every 2 feet oflift to interlock the rock. For the retaining wall, the contractor can either follow the recommendations above or install a slotted pipe design or every six feet have a block turned on its side at 6-foot intervals and place half-inch galvanize wire between two layers of Tencate geosynthectics-mirafi N-140, nonwoven with¾ inch crushed rock behind for the full width and length of the block. All pipes shall have the labels up and glued and inspected prior to backfilling. A representative of our company should be contacted to observe the placement of the waterproofing and the wall drains. SITE EROSION CONTROL During the construction, surface water should be controlled via berms, gravel bags and/or sandbags, silt fence, straw wattles, siltation basins, while maintaining positive surface grades or other methods to avoid damage to the finish work or adjoining properties. All site entrances and exits must have coarse gravel or steel shaker plates to minimize offsite sediment tracking. Best management Practices (BMP's) must be used to protect storm drains and minimize pollution. The contractor should take measures to prevent erosion of graded areas until such time as permanent drainage and erosion control measures have been installed. After completion of grading, all excavated surfaces should exhibit positive drainage and eliminate areas where water might pond. SITE AND SURFACE DRAINAGE Drainage at the site should be directed away from foundations, collected and tight lined to appropriate discharge points. Consideration may be given to collecting roof drainage by eave gutters and directing it away from foundations via non-erosive devices. Water, either natural or from irrigation, should not be permitted to pond, saturate the surface soils or flow towards the foundation. Landscaping requiring a heavy irrigation schedule should not be planted adjacent to foundations or paved areas. The type of drainage issues found within the project and materials specified and used should be determined by the Engineer of Record. 6 .. .. Greg Goertzen File No. 112786-19 February 25, 2020 GROUNDWATER AND SURFACE WATERS There was no indication of a near-surface groundwater table within our exploratory trench or perched groundwater. Although groundwater is not expected to be a significant constraint to the proposed development, our experience indicates that near-surface groundwater conditions can develop in areas where no such groundwater conditions previously existed, especially in areas where a substantial increase in surface water infiltration results from landscape irrigation or unusually heavy precipitation. It is anticipated that site development will include appropriate drainage provisions for control and discharge of surface water runoff. The type of drainage issues found within the project and materials specified and used should be determined by the Civil Engineer. The type of plants and soil specified along with proper irrigation used should be determined by the Landscape Architect. The following grading specifications should be utilized if grading is proposed. RECOMMENDED GRADING SPECIFICATIONS For Proposed Residential Building Site El Fuerte Street and Acuna Court City of Carlsbad GENERAL: Soil Testers and 'Engineer' are synonymous hereinafter and shall be employed to inspect and test earthwork in accordance with these specifications, the accepted plans, and the requirements of any jurisdictive governmental agencies. They are to be allowed adequate access so that the inspections and tests may be performed. The Engineer shall be apprised of schedules and any unforeseen soil conditions. Substandard conditions or workmanship, inadequate compaction, adverse weather, or deviation from the lines and grades shown on the plans, etc., shall be cause for the engineer to either stop construction until the conditions are corrected or recommend rejection of the work. Refusal to comply with these specifications or the recommendations and/or interpretations of the engineer will be cause for the engineer and/or his representative to immediately terminate his services. Deviations from the recommendations of the Soil Report, from the plans, or from these Specifications must be approved in writing by the owner and the contractor and endorsed by the engineer. 7 Greg Goertzen SOIL TEST METHODS: Maximum Density & Opt Moisture Density of Soil In-Place Soil Expansion Shear Strength Gradation & Grain Size File No. 1127H6-19 February 25, 2020 --ASTM D1557-70 --ASTM D 1556, D2922 and D3017 --UBC ST AND ARD 29-2 --ASTM D3080-72 --ASTM D1140-71 --ASTM D2325-68 Capillary Moisture Tension Organic Content --% Weight loss after heating for 24 hours at 300° F and after deducting soil moisture. LIMITING SOIL CONDITIONS: Minimum Compaction Expansive Soils Insufficient fines Oversized Particles 90% for 'disturbed' soils. (Existing fill, newly placed fill, plowed ground, etc.) 84% for natural, undisturbed soils. 95% for pavement subgrade within 2' of finish grade and pavement base course. Expansion index exceeding 20 Less than 40% passing the #4 sieve. Rocks over 1 O" in diameter. PREPARATION OF AREAS TO RECEIVE FILL: Brush, trash, debris and detrimental soils shall be cleared from the areas to receive fill. Detrimental soils shall be removed to firm competent soil. Slopes exceeding 20% should be stepped uphill with benches 1 O' or greater in width. Scarify area to receive fill to 611 depth and compact. FILL MATERIAL shall not contain insufficient fines, oversized particles, or excessive organics. On-sit.e disposition of oversized rock or expansive soils is to be at the written direction of the Engineer. Select fill shall be as specified by the engineer. All fills shall be compacted and tested. SUBDRAINS shall be installed if required by and as directed by and detailed by the engineer and shall be left operable and unobstructed. They shall consist of 3" plastic perforated pipe set in a minimum cover of 4" of filter rock in a 'vee' ditch to intercept and drain free ground from the mass fills. Perforated pipe shall be schedule 40, Poly-Vinyl-Chloride or Acrylonitrile Butadienne Styrene plastic. Rock filter material shall conform to the following gradation: Sieve size: ¾Passing: 3/4" 90-100 #4 25-50 #30 5-20 #200 0-7 Subdrains shall be set at a minimum gradient of 0.2% to drain by gravity and shall be tested by dye flushing before acceptance. Drains found inoperable shall be excavated and replaced. 8 .. Greg Goertzen File No. 1127H6-19 February 25, 2020 CAPPING EXPANSIVE SOILS: If capping expansive soils with non-expansive soil to mitigate the expansive potential is used, the cap should be compacted, non-expansive, select soil placed for a minimum thickness 3' over the expansive soil and for a minimum distance of 8' beyond the exterior perimeter of the structure. Special precautions should be taken to ensure that the non-expansive soil remains uncontaminated and the minimum thickness and dimensions around the structure are maintained. The expansive soils underlying the cap of non-expansive cap should be pre-saturated to a depth of 3' to obtain a degree saturation exceeding 90% before any construction supported by the compacted cap. The non-expansive soil comprising the cap should conform to the following: Minimum Compaction Maximum Expansion Index Minimum Angle of Internal Friction Cohesion Intercept 90% 30 33 Deg 100 psf UNFORESEEN CONDITIONS: Soil Testers assume no responsibility for conditions, which differ from those, described in the applicable current reports and documents for this property. Upon termination of the engineer's services for any reason, his fees up to the time of termination become due and payable. If it is necessary for the engineer to issue an unfavorable report concerning the work that he has been hired to test and inspect, the engineer shall not be held liable for any damages that might result from his 'unfavorable report'. If we can be of any further assistance, please do not hesitate to contact our office. This opportunity to be of service is sincerely appreciated. Plates I through V are parts of this report. Respectfully submitted, Chin C. Chen, RPE C34442 CCC/mlj 9 I I I I I I I I I I ~:x=---~--SIDEWALK - EL FUERTE STREET [.;iii EXPLORATION TRENCH -=-RETAINING WALL "7I._ PROPOSED TOP OF SLOPE PROPOSED TOE OF SLOPE rv--... EXISTING TOPOGRAPHY LOCATION OF EXPLORATION TRENCHES PLATE I JRK 12-31-19 \ I ~ :::> 0 u <( z :::> u <( ~ NO SCALE~ ,~ 'msrEU :>:,,.;.;v , . . P.O. Box 1195 Lakeside, CA 92040 619-443-0060 Greg Goertzen Plate No. II EXPLORATION NUMBER 1 Date Logged: Date Reported: 05/02/19 11/29/19 D th U "fi d Cl "fi f ieo Ill le ass1 1ca ions 0 to 6" SM Red brown, lawn roots 6 to 30" SC Red brown, File No. 1127H6-19 February 25, 2020 Equipment Used: Hand dug Groundwater: Not Encountered S ·1 D 01 'f escnp 10n S ·1 T 01 ype dry, loose, SILTY SANDS (Topsoils) dry, dense, SIL TY CLAYEY SANDS 1 with some decomposed granite (Native) 30 to 48" SM Yellow tan, dry, dense, SILTY SANDS (Native) bottom of excavation -Bedrock was not encountered Greg Goertzen Plate No. III EXPLORATION NUMBER 2 Date Logged: Date Reported: 05/02/19 11/29/19 D h U . fi d Cl . fi ept Ill e ass1 cations 0 to 5" SM Dark brown, lawn roots 5 to 16" SM Light brown, with some clay 16 to 48" SM Orange brown, with some clay File No. 1127H6-19 February 25, 2020 Equipment Used: Hand dug Groundwater: Not Encountered S 'ID 01 escnptlon S ·1 T 01 ype dry, loose, SILTY SANDS (Topsoils) dry, firm to dense, SILTY SANDS (Native) dry, dense, SILTY SANDS (Native) bottom of excavation -Bedrock was not encountered ... • i ftdll.7' RE',ISl()j DESCRIPTION GEOLO G\C MAP PLATEV 1127H6-·1 9 "'1l!JC!vUI. (l'OIT--<Olll'IIOtTIO 111P Tlltl 51'(M:UK47ER RfCIJIR(JE/1173 JHAT APA.~ CJEIIPT FROM HltJfiQIQln;ATION1 ~ sr.Mt£JARO srtR'IWA~ R£0tMCM£H1S P'tffOVrrPRO.CCTRl'CURC.ltl£Nl3 eg -:: (SH S1'd FOR aoctnOTAOON) TYPl -.......... ILlllfflllll!CI surr JIQ. ll.llllffJWl:I .._ _., I 1·•IO' SOIL TESTERS LEGEND .:L....:l APPROXIMATE TEST TRENCH LOCATION APPROXIMATE LIMITS OF THE SITE Af/Muz ARTIFICIAL FILL OVER ExE .... -- NRCS-EXCHEQUER SURFACE SOILS, ROCKY SILT LOAM, 9 TO 30% SLOPES "AS BUILT" EXP. __ _ on- -0 r ~ n m :::0 < 0 V\ V\ V\ m n -I -0 z ..... ..... ..... I (X) 0 '--N I ~ :::0 a, '.J N :;:,-: -< :::r: 0 m °' N I 0 ..... \0 A 370 355 '-0 a, z C ~ a, m ::0 EL FUERTt, ~ APl'IIClOQMAlt lMTS Of UN00CUMENm> Fl.I.I FG-362.9 (FS-353.6~ I .,-·- (TC•ill.11..._ ~ I ,,-/ (Fl.,,353.0) \~ r:.---- EXISTING PCC CURB ANO SIDEWALi( TO REMAIN FG-371.3 EXISTING PCC BROW DITCH TOREMAIN Muz CONSTRUCT 12"Wl0£. .... _,.,, I ~r -~ t 3• DEEP GRAVEL I D=\ DRAINAGEOITLl 4' ::;!;';~_., ":""" _\_ ------~'~ -;p1 -A --·--- INSTAU 6•PVc STORM DRAIN PIPE; IE-368.6 """''""'"°'""""""'-,.m.,;f j:" ~~~:4" 1// PCC BROW DITCH CONSTRUCT MASONRY RETAININGWAUPERSDRSDC-04 ~ PERSORSO l>-7S; GEOLOGIC SECTION A -A GOERTZEN RESIDENCE LOT -84, EL FUERTE STREET CARLSBAD, CALIFORNIA Approximate limits of possible undocumented fill (af) during street improvements / TYPES TW=J13.J/ 8Wt371.J Muz Metamorphosed and unmetamorphosed volcanic Red-brown to Light