HomeMy WebLinkAbout; Rancho Santa Fe Road and Mission Estancia; Updated Recommendations; 1989-11-27REPORT OF
UPDATED RBGCHHENDKTIONS
TIENDA DE IA ESQUINA
RANCTO SANTA FE ROAD AND MISSION ESTANCIA
CARLSBAD, CALIFORNIA
PREPARED FOR:
Cunningham - Barisic Development Company
340 South Flover Street
Orange, California 92668
PREPARED BY:
Southern California Soil & Testing, Inc,
Post Office Box 20627
6280 Riverdale Street
San Diego, California 92120
SOUTHERN CALIFORNIA SOIL AND TESTING, INC.
62SD RIVERDALE ST. SAN DIEGD, CALIF. 921 ZQ ' TELE 2BO-43Z1 • P.O. BOX ZD6Z7 SAN DIEGD, CALIF. 921 ZD
ENTERPRISE ESCDNDIDQ,CALIF.9ZDZ5 TELE 7 A 6 - A 5
November 27, 1989
Cunningham - Barisic Development Corrpany
340 South Flower Street
Orange, California 92668
SCS&T 8921180
Report No. 1
ATTENTION: Mr. Mark Gerber
SUBJECT: Updated Recommendations, Tienda De La Esquina, Rancho Santa Fe
Road and Mission Estancia, Carlsbad, California.
REFERENCES: 1) "Tentative Map - Site Development Plan, Tienda De La
Esquina;" Rick Engineering Company; Printed October 25,
1989.
2) "Report of In-Place Density Tests, SE-17 Site;" Southern
California Soil and Testing, Inc.; December 19 1985.
3) "Report of Geotechnical Investigation, Rancho Santa Fe Road
Inprovements and SE-17 Site;" Southern California Soil and
Testing, Inc.; Septeirfoer 11, 1985.
Gentlemen:
In accordance with your request, we have prepared this report to present
updated site preparations and foundation recommendations for the subject
site. The following recommendations reflect current geotechnical
State-of-the-Practice standards in the San Diego County area and the
proposed development scheme shown on the referenced map. In conjunction with
the preparation of this report we performed a site reconnaissance. This
indicated that the site remains essentially unchanged from 1985 when mass
grading was performed.
SOUTHERN CALIFORNIA SOIL AND TESTING,N C .
SCS&T 8921180 November 27, 1989 Page 2
PROJECT DESCRIPTION
It is our understanding that the site will be developed to receive a
shopping center. The proposed structures will be one and/or two stories high
and of wood-frame construction. Shallow foundations and conventional
slab-on-grade floor systems are anticipated. Most of the proposed grading
will consist of cuts and fills less than five feet deep. In addition,
grading associated with the construction of proposed cribwalls will consist
of cuts and fills up to ten feet and 18 feet deep, respectively.
CONCLUSIONS AND RECOMMENDATIONS
The following updated recommendations reflect information available in our
files regarding the soil conditions at the site. These recommendations
assume a nondetrimentally expansive soil condition within four feet from
existing grade. This should be confirmed during grading operations.
Furthermore, the existing slopes along Mission Estancia and Rancho Santa Fe
Road consist of buttress fills. The impact of proposed cribwalls to be
constructed into the slopes should be evaluated.
GRADING
SITE PREPARATION: Site preparation should begin with the removal from the
site of any deleterious matter and vegetation. Existing surface soils should
be scarified to a depth of 12 inches, moisture conditioned and compacted to
at least 90 percent as determined in accordance with ASTM D1557-78, Method A
or C. Fill deposits may then be placed in thin compacted layers.
SEU3CT GRADING: It is recommended that expansive soils (expansion index
exceeding 50) not be placed within a distance of four feet and two feet from
finish pad grade in proposed building and parking areas, respectively. In
addition expansive soils should not be placed within a distance of ten feet
from the face of fill slopes.
SCS&T 8921180 November 27, 1989 Page 3
SURFACE DRMNBCE: It is recommended that all surface drainage be directed
away from the proposed structures and the top of slopes. Ponding of water
should not be allowed adjacent to the foundation.
EAFOHWORK: All earthwork and grading contemplated for site preparation
should be accomplished in accordance with the attached Recommended Grading
Specifications and Special Provisions. All special site preparation
recommendations presented in the sections above will supersede those in the
standard Recommended Grading Specifications. All embankments, structural
fill and fill should be compacted to at least 90% relative compaction at or
slightly over optimum moisture content. Utility trench backfill within five
feet of the proposed structures and beneath asphalt pavements should be
compacted to minimum of 90% of its maximum dry density. The upper twelve
inches of subgrade beneath paved areas should be compacted to 95% of its
maximum dry density. This compaction should be obtained by the paving
contractor just prior to placing the aggregate base material and should not
be part of the mass grading requirements. The maximum dry density of each
soil type should be determined in accordance with A.S.T.M. Test Method
D-1557-78, MBthod A or C.
SLOPE STABILITY
Although no major slopes are proposed it is our opinion that cut and fill
slopes constructed at a 2:1 (horizontal to vertical) inclination, will
possess and adequate factor-of-safety with respect to deep seated rotational
failure to a height of at least 20 feet.
FOUNDATICNS
GENERAL: Conventional shallow footings are recommended for the support of
the proposed structures. These footings should be founded at least 12 inches
and 18 inches below lowest adjacent finish pad grade for single and
two-story structures, respectively. The minimum width for continuous and
isolated footings should be 12 inches and 24 inches, respectively. Such
footings may be designed for an allowable soil bearing pressure of 2,000
psf. The bearing pressure may be increased by one-third when considering
SCS&T 8921180 November 27, 1989 Page 4
wind and/or seismic loading. A minimum setback of seven feet should be
observed between footings and the face of slopes. Retaining wall footings in
similar conditions should be evaluated by this office.
REINFORCEMENT: It is recommended that minimum reinforcement for shallow
continuous footings consist of at least two continuous No. 5 reinforcing
bars, one located near the top of the footings and two near the bottom. This
reinforcement is based on soil characteristics and is not intended to be in
lieu of reinforcement necessary to satisfy structural considerations.
INTERIOR CGNJKbTLU SUVBS-QH-GRADB: Concrete slabs-on-grade should have a
thickness of four inches and be reinforced with No. 3 reinforcing bars
placed at 24 inches on center each way. A 6"x6"-W2.9xW2.9 welded wire mesh
may be used in lieu of the rebar. The reinforcement should be placed near
the middle of the slab. A four-inch-thick layer of clean, coarse sand or
crushed rock should be placed under the slab. This layer should consist of
material having 100 percent passing the one-half-inch screen, no more than
ten percent passing sieve #100 and no more than five percent passing sieve
#200. Where moisture-sensitive floor coverings are planned, the sand or rock
should be overlain by a visqueen moisture barrier. A two-inch-thick layer
of silty sand should be provided above the visqueen to allow proper concrete
curing.
EXTERIOR SUfflS-CN-GZWDE: Exterior slabs should have a minimnn thickness of
four inches. Walks or slabs five feet in width should be reinforced with
6"x6"-W1.4xW1.4 (6"x6"-10/10) welded wire rresh and provided with weakened
plane joints. Any slabs between five and ten feet should be provided with
longitudinal weakened plane joints at the center lines. Slabs exceeding ten
feet in width should be provided with a weakened plane joint located three
feet inside the exterior perimeter as indicated on attached Plate Number 1.
Both traverse and longitudinal weakened plane joints should be constructed
as detailed in Plate Number 1. Exterior slabs adjacent to doors and garage
openings should be connected to the footings by dowels consisting of No. 3
reinforcing bars placed at 24-inch intervals extending 18 inches into the
footing and the slab.
SCS&T 8921180 November 27, 1989 Page 5
SETTLEMENT CHBRflCIERISincSi The anticipated total and/or differential
settlements for the proposed structure may be considered to be within
tolerable limits provided the recontnendations presented in this report are
followed. It should be recognized that minor hairline cracks on concrete due
to shrinkage of construction materials or redistribution of stresses are
normal and may be anticipated.
EAKIH RETAINING WALLS
PASSIVE PRESSURE: The passive pressure for the prevailing soil conditions
may be considered to be 400 pounds per square foot per foot of depth. This
pressure may be increased one-third for seismic loading. The coefficient of
friction for concrete to soil may be assumed to be 0.35 for the resistance
to lateral movement. When combining frictional and passive resistance, the
former should be reduced by one-third. The upper 12 inches of exterior
retaining wall footings should not be included in passive pressures
calculations.
ACTIVE PRESSURE: The active soil pressure for the design of unrestrained
earth retaining structures with level backfills may be assumed to be
equivalent to the pressure of a fluid weighing 32 pounds per cubic foot. For
a 2:1 (horizontal to vertical) sloping backfill 15 pcf should be added.
These pressures do not consider any other surcharge. If any are anticipated,
this office should be contacted for the necessary increase in soil pressure.
This value assumes a drained backfill condition. Waterproofing details
should be provided by the project architect. A wall drainage detail is
provided on the attached Plate Number 2.
BBCKFUi: All backfill soils should be contacted to at least 90% relative
compaction. Expansive or clayey soils should not be used for backfill
material. The wall should not be backfilled until the masonry has reached an
adequate strength.
FACTOR OF SAFETY: The above values, with the exception of the allowable soil
friction coefficient do not include a factor of safety. Appropriate factors
of safety should be incorporated into the design to prevent the walls from
overturning and sliding.
SCS&T 8921180 November 27, 1989 Page 6
CRIBWMiS: The aforementioned design values may be utilized for critwall
design. A bearing capacity of 3000 psf may be utilized for cribwalls founded
at least 12 inches into compacted fill or firm natural ground.
UHTEATICNS
The recommendations and opinions expressed in this report reflect our best
estimate of the project requirements based on an evaluation of the
subsurface soil conditions encountered at the subsurface exploration
locations and the assumption that the soil conditions do not deviate
appreciably from those encountered. It should be recognized that the
performance of the foundations and/or cut and fill slopes may be influenced
by undisclosed or unforeseen variations in the soil conditions that may
occur in the intermediate and unexplored areas. Any unusual conditions not
covered in this report that may be encountered during site development
should be brought to the attention of the soils engineer so that he may make
modifications if necessary. In addition, this office should be advised of
any changes in the project scope or proposed site grading so that it may be
determined if the reconmendations contained herein are appropriate. This
should be verified in writing or modified by a written addendum.
If you have any questions after reviewing the findings and recommendations
contained in the attached report, please do not hesitate to contact this
office. This opportunity to be of professional service is sincerely
appreciated.
Respectfully submitted,
3RN CALIFORNIA SOIL STING, INC,
Daniel B. fidler, R.C.E. #36037
DEAtmw
cc: (3) Submitted
(3) Rick Engineering Company
TRANSVERSE
WEAKENED
PLANE JOINTS
6* ON CENTER
(MAXIMUM)
WEAKENED
PLANE
JOINTS
10'
SLABS IN EXCESS OF
10 FEET IN WIDTH
w
, W/2t
^^ «
X
W/2
^
1 5'-lO'
SLABS' 6 TO 10
FEET IN WIDTH
PLAN
NO SCALE
TOOLED JOINT
1-1/4'
T/2
•3
I
*5 REBARS AT 18 ON
CENTER EACH WAY
WEAKENED PLANE JOINT DETAIL
NO SCALE
ylgXs SOUTHERN CALIFORNIA
N^^ SOIL 4 TESTING. INC.
TIENDA DE LA ESQUINA
BYi - DBA
JOB NUMBER: 892 11 80
DATE: -11-27-89
PLATE NO. 1
WATERPROOF BACK OF WALL PER
ARCHITECTS SPECIFICATIONS
3/4 INCH CRUSHED ROCK OR
MARIDRAINSOOO OR EQUIVALENT
QEOFABRIC BETWEEN ROCK AND SOIL
4" DIAMETER PERFORATED PIPE
HOUSE ON GRADE SLAB
HOUSE RETAINING WALL
SUBDRAIN DETAIL
NO SCALE
./V SOUTHERN CALIFORNIA
<^"X SOIL A TESTING, INC.
TIENDA DE LA ESQUINA
BY: DBA
JOB NUMBER: 8921180
DATE: 11-27-89
PLATE NO. 2
TIENDA DE LA ESQUINA, RANCK) SANTA FE ROAD AND MISSION ESTANCIA, CARLSBAD
RBCCMMENDED GRADING SPECIFICATIONS - (SNERAL PROVISICNS
GENERAL INTENT
The intent of these specifications is to establish procedures for clearing,
contacting natural ground, preparing areas to be filled, and placing and
compacting fill soils to the lines and grades shown on the accepted plans.
The recomnendations contained in the preliminary gee-technical investigation
report and/or the attached Special Provisions are a part of the Recommended
Grading Specifications and shall supersede the provisions contained
hereinafter in the case of conflict. These specifications shall only be
used in conjunction with the geotechnical report for which they are a part.
No deviation from these specifications will be allowed, except where
specified in the geotechnical report or in other written communication
signed by the Geotechnical Engineer.
OBSERVATION AND TESTING
Southern California Soil and Testing, Inc., shall be retained as the
Geotechnical Engineer to observe and test the earthwork in accordance with
these specifications. It will be necessary that the Geotechnical Engineer
or his representative provide adequate observation so that he may provide
his opinion as to whether or not the work was accomplished as specified. It
shall be the responsibility of the contractor to assist the Geotechnical
Engineer and to keep him appraised of work schedules, changes and new
information and data so that he may provide these opinions. In the event
that any unusual conditions not covered by the special provisions or
preliminary geotechnical report are encountered during the grading
operations, the Geotechnical Engineer shall be contacted for further
recommendations.
(R-9/89)
SCS&T 8921180 November 21, 1989 Appendix, Page 2
If, in the opinion of the Geotechnical Engineer, substandard conditions are
encountered, such as questionable or unsuitable soil, unacceptable moisture
content, inadequate compaction, adverse weather, etc.; construction should
be stopped until the conditions are remedied or corrected or he shall
recommend rejection of this work.
Tests used to determine the degree of compaction should be performed in
accordance with the following American Society for Testing and Materials
test methods:
Maximum Density & Optimum Moisture Content - ASTM D-1557-78.
Density of Soil In-Place - ASTM D-1556-64 or ASTM D-2922.
All densities shall be expressed in terms of Relative Compaction as
determined by the foregoing ASTM testing procedures.
PREPARATION OF AREAS TO RECEIVE FIU.
All vegetation, brush and debris derived from clearing operations shall
be removed, and legally disposed of. All areas disturbed by site grading
should be left in a neat and finished appearance, free from unsightly
debris.
After clearing or benching the natural ground, the areas to be filled shall
be scarified to a depth of 6 inches, brought to the proper moisture content,
compacted and tested for the specified minimum degree of compaction. All
loose soils in excess of 6 inches thick should be removed to firm natural
ground which is defined as natural soils which possesses an in-situ density
of at least 90% of its maximum dry density.
(R-9/89)
SCS&T 8921180 November 21, 1989 Appendix, Page 3
When the slope of the natural ground receiving fill exceeds 20% (5
horizontal units to 1 vertical unit), the original ground shall be stepped
or benched. Benches shall be cut to a firm competent formational soils. The
lower bench shall be at least 10 feet wide or 1-1/2 times the the equipment
width whichever is greater and shall be sloped back into the hillside at a
gradient of not less than two (2) percent. All other benches should be at
least 6 feet wide. The horizontal portion of each bench shall be compacted
prior to receiving fill as specified herein for compacted natural ground.
Ground slopes flatter than 20% shall be benched when considered necessary by
the Geotechnical Engineer.
Any abandoned buried structures encountered during grading operations must
be totally removed. All underground utilities to be abandoned beneath any
proposed structure should be removed from within 10 feet of the structure
and properly capped off. The resulting depressions from the above described
procedures should be backfilled with acceptable soil that is compacted to
the requirements of the Geotechnical Engineer. This includes, but is not
limited to, septic tanks, fuel tanks, sewer lines or leach lines, storm
drains and water lines. Any buried structures or utilities not to be
abandoned should be brought to the attention of the Geotechnical Engineer
so that he may determine if any special recommendation will be necessary.
All water wells which will be abandoned should be backfilled and capped in
accordance to the requirements set forth by the Geotechnical Engineer. The
top of the cap should be at least 4 feet below finish grade or 3 feet below
the bottom of footing whichever is greater. The type of cap will depend on
the diameter of the well and should be determined by the Geotechnical
Engineer and/or a qualified Structural Engineer.
(R-9/89)
SCS&T 8921180 November 27, 1989 Appendix, Page 4
FILL MB3ERIAL
Materials to be placed in the fill shall be approved by the Geotechnical
Engineer and shall be free of vegetable matter and other deleterious
substances. Granular soil shall contain sufficient fine material to fill
the voids. The definition and disposition of oversized rocks and expansive
or detrimental soils are covered in the geotechnical report or Special
Provisions. Expansive soils, soils of poor gradation, or soils with low
strength characteristics may be thoroughly mixed with other soils to provide
satisfactory fill material, but only with the explicit consent of the
Geotechnical Engineer. Any import material shall be approved by the
Geotechnical Engineer before being brought to the site.
PIJCING AND OCMPJCTION OF FILL
Approved fill material shall be placed in areas prepared to receive fill in
layers not to exceed 6 inches in compacted thickness. Each layer shall have
a uniform moisture content in the range that will allow the compaction
effort to be efficiently applied to achieve the specified degree of
compaction. Each layer shall be uniformly compacted to the specified
minimum degree of compaction with equipment of adequate size to
economically compact the layer. Compaction equipment should either be
specifically designed for soil compaction or of proven reliability. The
minimum degree of compaction to be achieved is specified in either the
Special Provisions or the recommendations contained in the preliminary
geotechnical investigation report.
When the structural fill material includes rocks, no rocks will be allowed
to nest and all voids must be carefully filled with soil such that the
minimum degree of compaction recommended in the Special Provisions is
achieved. The maximum size and spacing of rock permitted in structural
fills and in non-structural fills is discussed in the geotechnical report,
when applicable.
(R-9/89)
SCS&T 8921180 November 27, 1989 Appendix, Page 5
Field observation and compaction tests to estimate the degree of compaction
of the fill will be taken by the Geotechnical Engineer or his
representative. The location and frequency of the tests shall be at the
Geotechnical Engineer's discretion. When the compaction test indicates that
a particular layer is at less than the required degree of compaction, the
layer shall be reworked to the satisfaction of the Geotechnical Engineer and
until the desired relative compaction has been obtained.
Fill slopes shall be compacted by means of sheepsfoot rollers or other
suitable equipment. Compaction by sheepsfoot rollers shall be at vertical
intervals of not greater than four feet. In addition, fill slopes at a
ratio of two horizontal to one vertical or flatter, should be trackrolled.
Steeper fill slopes shall be over-built and cut-back to finish contours
after the slope has been constructed. Slope compaction operations shall
result in all fill material six or more inches inward from the finished face
of the slope having a relative compaction of at least 90% of maximum dry
density or the degree of compaction specified in the Special Provisions
section of this specification. The compaction operation on the slopes shall
be continued until the Geotechnical Engineer is of the opinion that the
slopes will be stable surficially stable.
Density tests in the slopes will be made by the Geotechnical Engineer during
construction of the slopes to determine if the required compaction is being
achieved. Where failing tests occur or other field problems arise, the
Contractor will be notified that day of such conditions by written
communication from the Geotechnical Engineer or his representative in the
form of a daily field report.
If the method of achieving the required slope compaction selected by the
Contractor fails to produce the necessary results, the Contractor shall
rework or rebuild such slopes until the required degree of compaction is
obtained, at no cost to the Owner or Geotechnical Engineer.
(R-9/89)
SCS&T 8921180 November 21, 1989 Appendix, Page 6
CUT SCOPES
The Engineering Geologist shall inspect cut slopes excavated in rock or
lithified formational material during the grading operations at intervals
determined at his discretion. If any conditions not anticipated in the
preliminary report such as perched water, seepage, lenticular or confined
strata of a potentially adverse nature, unfavorably inclined bedding, joints
or fault planes are encountered during grading, these conditions shall be
analyzed by the Engineering Geologist and Soil Engineer to determine if
mitigating measures are necessary.
Unless otherwise specified in the geotechnical report, no cut slopes shall
be excavated higher or steeper than that allowed by the ordinances of the
controlling governmental agency.
ENGINEERING OBSERVATICN
Field observation by the Geotechnical Engineer or his representative shall
be made during the filling and compacting operations so that he can express
his opinion regarding the conformance of the grading with acceptable
standards of practice. Neither the presence of the Geotechnical Engineer or
his representative or the observation and testing shall not release the
Grading Contractor from his duty to compact all fill material to the
specified degree of compaction.
SEflSCN LIMITS
Fill shall not be placed during unfavorable weather conditions. When work
is interrupted by heavy rain, filling operations shall not be resumed until
the proper moisture content and density of the fill materials can be
achieved. Damaged site conditions resulting from weather or acts of God
shall be repaired before acceptance of work.
(R-9/89)
SCS&T 8921180 November 27, 1989 Appendix, Page 7
REOCMMMJED GRADING SPECIFICATIONS - SPECIAL PROVISIONS
RELATIVE COMPACTION: The minirann degree of conpaction to be obtained in
compacted natural ground, compacted fill, and compacted backfill shall be at
least 90 percent. For street and parking lot subgrade, the upper six inches
should be compacted to at least 95% relative conpaction.
EXPANSIVE SOUS: Detrimentally expansive soil is defined as clayey soil
which has an expansion index of 50 or greater when tested in accordance with
the Uniform Building Code Standard 29-C.
OVERSIZED MATERIAL: Oversized fill material is generally defined herein as
rocks or lumps of soil over 6 inches in diameter. Oversize materials should
not be placed in fill unless recommendations of placement of such material
is provided by the geotechnical engineer. At least 40 percent of the fill
soils shall pass through a No. 4 U.S. Standard Sieve.
TRANSmCN DJrS: Where transitions between cut and fill occur within the
proposed building pad, the cut portion should be undercut a minimum of one
foot below the base of the proposed footings and recompacted as structural
backfill. In certain cases that would be addressed in the geotechnical
report, special footing reinforcement or a combination of special footing
reinforcement and undercutting may be required.
(R-9/89)