HomeMy WebLinkAboutTract Map 3883 Lot 331 Limited Geotechnical Study
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CO!poration
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ENVIRONMENTAL & GEOTECH
I~AL~ECEivED
DEC' 2 9 2000
CITY OF TEM
ENGINEERING DE" pECULA
. ARTMENT
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LIMITED GEOTECHNICAL STUDY
Proposed Single Family Residence
Lot 331 otTract 3883
City of Temecula, County of Riverside, California
Project Number: T2235-LGS
December 27, 2000
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Prepared for:
.~ Barry and Debbie Rehm ,r'/ ~"
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Barry and Debbie Rehm
Project No: T2235-LGS
TABLE OF CONTENTS
Section Number and Title
Paqe
1.0 SITE/PROJECT DESCRIPTION ..................................................................................... 1
1,1 Location/Project Description .......................................,................................. ....... 1
1.2 Site Review .......................................................................................................... 1
2.0 EARTHWORK RECOMMENDATIONS ....................................................,..................... 2
2.1 All Areas,......................................................,.,.,...............,.........,....,..,..,....,.,.,.,... 2
2.2 Structural Fill.... ...,.. ....... ....... ................... .......... ............. ......... ......... ...... .............. 2
3.0 FOUNDATION DESIGN RECOMMENDATIONS ........................................................... 3
3.1 Geileral .... ... ... .......... ... ................... ......" ....... ...... ....... .............. .......... ........".. ..... 3
4.0 RETAINING WALL RECOMMENDATIONS................................................................... 3
4.1 Earth Pressures ................................................................................................... 3
4.2 Foundation Design............................,....".,.,............................................,....,.".,. 4
4.3 Subdrain.,....,........,......,...............................,....,..,..........,......,.,.,...,..,.....,..,.,......., 4
4.4 Backfill......,..,...,..,..,..,......,..,.............................................,.,.,.,.,..,........,..........., 5
5.0 MISCELLANEOUS RECOMMENDATIONS................................................................... 5
5,1 Utility Trench .......................................,...........................................................,.... 5
5,2 Finish Lot Drainage Recommendations...............................................................6
5.3 Planter Recommendations..........,........,.,.,.................................................,.,......, 6
5.4 Supplemental Construction Observations and Testing........................................ 6
5.5 Plan Review .....,.. ............,...,.................................................. ........ ...... .............,.. 6
5.6 Pre-Bid Conference ............................................................................................. 6
5,7 Pre-Grading Conference.............................................................................,...,.... 6
6.0 CLOSURE....................... ........................,..,..,.,....,.......................,...,......,.....,..,.,.......... 7
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'" h-:'~nGEN CO!poration
. Soil Engineering and Consulting Services . EngineeringGeology. Compaclion Tes\ing
.lnspeclions-ConslruclionMaterialsTesling-laboratoryTesling.PercolalionTesling
eGeology.WaterResourceStudies -Phasel&IIEnvironmelllaISiteAssessments
ENVIRONMENTAL & GEOTECHNICAL ENGINEERING NETWORK
December 27,2000
Barry and Debbie Rehm
29653 Via Mondo
Temecula, California 92592
(909) 695-0222
LIMITED GEOTECHNICAL STUDY
Proposed Single Family Residence
Lot 331 , Tract 3883
City of Temecula, County of Riverside, California
Project Number: T2235-LGS
Regarding:
Dear Barry & Debbie Rehm:
Per your request and signed authorization, a representative of this firm has visited the subject site on
December 22, 2000, to visually observe the surface within the subject lot. Based on this firm's
experience with this type of project and on the well known and relatively simplistic underlying
geologic conditions of the site and immediate vicinity, subsurface exploration was not considered
necessary. However, in lieu of subsurface exploration, additional grading beyond that anticipated in
this report may be necessary depending on exposed conditions encountered during grading.
1.0
1.1
1.2
SITE I PROJECT DESCRIPTION
Location I Proiect Description: The subject property is located on Calle Torcida in the City
of Temecula. The proposed development is a one or two story, slab-on-grade residential
structure. The remainder of the site will consist of hardscape and landscape improvements.
Site Review: Based on the site visit, it appears that slopewash (thought to be less than three
(3) feet deep) overlying Pauba Formation bedrock underlies the site. Based on the density of
the underlying earth material type (Pauba Formation bedrock) the potential for hazards
associated with liquefaction is considered low. No known active faults traverse the site.
Based on favorable topography, the potential for hazards associated with rockfalls or
landslides is considered low. No unusual geological conditions were noted.
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2.0
2.1
2.2
Barry & Debbie Rehm
Project No: T2235-LGS
December 2000
Page 2
EARTHWORK RECOMMENDATIONS
All Areas:
. All vegetation should be removed from areas to be graded and not used in fills.
. The proposed structure and hardscape areas will require the removal of slopewash
and weathered bedrock. Removals should be performed to competent Pauba
Formation bedrock. Depths of removals are expected to be up to three (3) feet.
Removals should extend a horizontal distance of at least five (5) feet beyond the
perimeter footings. Deeper removals may be required depending on exposed
conditions encountered,
. All removal bottoms should be inspected and tested by the Soil Engineer's
Representative prior to placing fill. Removal bottoms which test at 85% relative
compaction, or better, will be considered acceptable. After bottom approval, all
bottoms should be scarified 12-inches, moisture conditioned to near optimum
moisture and then recompacted to a minimum of 90 percent relative compaction,
. A cut/fill transition traverses through the proposed structure area. Therefore, the cut
portion should be overexcavated after removals of slopewash and/or incompetent
bedrock. Overexcavation depth should be a minimum of two (2) feet below the
bottom of the proposed footings or equal to one-half the thickness of the fill on the fill
portion of the pad, whichever results in the deeper overexcavation. Overexcavation
bottoms should be approved by the Soil Engineer's Representative, All approved
bottoms should be 3~ariiied 12-inches, moisture conditioned to near optimum
moisture and then recompacted to a minimum of 90 percent relative compaction.
. All cut and fill slopes should be constructed at a ratio no steeper than 2: 1. Cut slopes
should be inspected by the Project Geologist to verify stability.
. An expansion test should be performed on a representative soil sample retrieved from
the finished pad area subgrade so that foundation recommendations can be verified.
Structural Fill: All fill material, whether on-site material or import, should be approved by the
Project Geotechnical Engineer and/or his representative before placement. All fill should be
free from vegetation, organic material, and other debris. Import fill should be no more
expansive than the existing on-site material. Approved fill material should be placed in
horizontal lifts not exceeding 6.0 to 8.0-inches in thickness and watered or aerated to obtain
EnGEN Corporation
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Bany & Debbie Rehm
Project No: T2235-LGS
December 2000
Page 3
near-optimum moisture content (2.0 percent of optimum), Each lift should be spread evenly
and should be thoroughly mixed to ensure uniformity of soil moisture. Structural fill should
meet a minimum relative compaction of 90 percent of maximum dry density based upon
ASTM D1557-78 (90) procedures. Moisture content of fill materials should not vary more
than 2.0 percent of optimum, unless approved by the Project Geotechnical Engineer.
3.0 FOUNDATION DESIGN RECOMMENDATIONS
3.1 General: Foundations for the proposed structure may consist of conventional column
footings and continuous wall fcotings founded in competent engineered fill. Minimum footing
depth should be 18-inches (12-inches for single story) below lowest adjacent grade.
Recommendations for foundation design and construction should be provided by the
Structural Engineer in accordance with the latest edition of the UBC and should be based on
geotechnical characteristics for competent fill consisting of silty sand (SM) and a very low
expansion potential (EI=1) for the supporting soils and should not preclude more restrictive
structural requirements. The following seismic parameters apply:
Type of Fault: Type 8 Fault
Closest Distance to Known Fault: Less than 2Km
Soil Profile Type: SD
4.0 RETAINING WALL RECOMMENDATIONS
4.1 Earth Pressures: Retaining walls backfilled with non-expansive granular soil (EI=O) or very
low expansive potential materials (Expansion Index of 20 or less) within a zone extending
upward and away from the heel of the footing at a slope of 0.5: 1 (horizontal to vertical) or
flatter can be designed to resist the following static lateral soil pressures:
Condition Level Backfill 2:1 Slope
Active 30 pcf 45 pet
I At Rest 60 pet --
Further expansion testing of potential backfill material should be performed at the time of
retaining wall construction to determine suitability. Walls that are free to deflect 0.001 radian
at the top should be designed for the above-recommended active condition. Walls that are
not capable of this movement should be assumed rigid and designed for the at-rest condition.
The above values assume well drained backfill and no buildup of hydrostatic pressure.
Surcharge loads, dead and/or live, acting on the backfill within a horizontal distance behind
the wall should also be should considered in the design. Uniform surcharge pressures should
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Barry & Debbie Rehm
Project No: T2235-LGS
December 2000
Page 4
be applied as an additional uniform (rectangular) pressure distribution. The lateral earth
pressure coefficient for a uniform vertical surcharge load behind the wall is 0.50.
4.2 Foundation Desicm: Retaining wall footings should be founded to the same depths into
properly compacted fill, or firm, competent, undisturbed, natural soil as standard foundations
and may be designed for the same allowable bearing value as determined per Section 3.1 (as
long as the resultant force is located in the middle one-third of the footing),and with the same
allowable static lateral bearing pressure and allowable sliding resistance as determined per
Section 3.1. However, retaining wall footings determined to be fully embedded in
unweathered bedrock may be designed for an allowable bearing value of 3,000 pounds per
square foot and lateral bearing of 350 pounds per square foot/foot of depth. When using the
allowable lateral pressure and allowable sliding resistance, a factor of safety of 1.5 should be
achieved.
4.3 Subdrain: A subdrain system should be constructed behind and at the base of all retaining
walls to allow drainage and to prevent the buildup of excessive hydrostatic pressures. Typical
subdrains may include weep holes with a continuous gravel gallery, perforated pipe
surrounded by filter rock, or some other approved system. Gravel galleries and/or filter rock,
if nct properly designed and graded for the on-site and/or import materials, should be
enclosed in a geotextile fabric such as Mirafi 140N, Supac 4NP, or a suitable substitute in
order to prevent infiltration of fines and clogging of the system. The perforated pipes should
be at least 4,0 inches in diameter. Pipe perforations should be placed downward. Gravel
filters should have volume of at least 1.0 cubic foot per lineal foot of pipe. Subdrains should
maintain a positive flow gradient and have outlets that drain in a non-er0S!'/e manner. In the
case of subdrains for basement walls, they need to empty into a sump provided with a
submersible pump activated by a change in the water level.
4.4 Backfill: Backfill directly behind retaining walls (if backfill width is less than 3 feet) may
consist of 0.5 - to 0.75-inch diameter, rounded to subrounded gravel enclosed in a geotextile
fabric such as Mirafi 140N, Supac 4NP, or a suitable substitute or a clean sand (Sand
Equivalent Value greater than 50) water jetted into place to obtain proper compaction. If
water jetting is used, the subdrain system should be in place. Even if water jetting is used,
the sand should be densified to a minimum of 90 percent relative compaction. If the specified
density is not obtained by water jetting, mechanical methods will be required. If other types of
soil or gravel are used for backfill, mechanical compaction methods will be required to obtain
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Barry & Debbie Rehm
Project No: T2235-LGS
December 2000
Page 5
a relative compaction of at least 90 percent of maximum dry density. Backfill directly behind
retaining walls should not be compacted by wheel, track or other rolling by heavy construction
equipment unless the wall is designed for the surcharge loading. If gravel, clean sand or
other imported backfill is used behind retaining walls, the upper 18-inches of backfill in
unpaved areas should consist of typical on-site material compacted to a minimum of 90
percent relative compaction in order to prevent the influx of surface runoff into the granular
backfill and into the subdrain system. Maximum dry density and optimum moisture content
for backfill materials should be determined in accordance with ASTM D1557-78 (90)
procedures.
5.0 MISCELLANEOUS RECOMMENDATIONS
5,1 Utilit; Trench Recommendations: Utility trenches within the zone of influence of
foundations or under b:.;:!::ing floor slabs, hardscape, and/or pavement areas should be
backfilled with properly compacted soil. It is recommended that all utility trenches excavated
to depths of 5,0 feet or deeper be cut back to an inclination not steeper than 1: 1 (horizontal to
vertical) or be adequately shored during construction. Where interior or exterior utility
trenches are proposed parallel and/or perpendicular to any building footing, the bottom of the
trench should not be located below a 1: 1 plane projected downward from the outside bottom
edge of the adjacent footing unless the utility lines are designed for the footing surcharge
loads. Backfill material should be placed in a lift thickness appropriate for the type of backfill
material and compaction equipment used. Backfill material should be compacted to a
minimum of 90 percent relative compaction by mec~2nic21 means. Jetting of the backfill
material will ..at be considered a satisfactory method for compaction, Maximum dry density
and optimum moisture content for backfill material should be determined according to ASTM
D1557-78 (90) procedures.
5.2 Finish Lot Drainaae Recommendations: Finish lot surface gradients in unpaved areas
should be provided next to tops of slopes and buildings to direct surface water away from
foundations and slabs and from flowing over the tops of slopes. The surface water should be
directed toward suitable drainage facilities. Ponding of 3~'-;ace water should not be allowed
next to structures or on pavements. In unpaved areas, a minimum positive gradient of 2.0
percent away from the structures and tops of slopes for a minimum distance of 5.0 feet and a
minimum of 1.0 percent pad drainage off the property in a non-erosive manner should be
provided.
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5.3
5.4
5.5
5.6
5.7
Barry & Debbie Rehm
Project No: T2235-LGS
December 2000
Page 6
Planter Recommendations: Planters around the perimeter of the structure should be
designed with proper surface slope to ensure that adequate drainage is maintained and
minimal irrigation water is allowed to percolate into the soils underlying the building,
Supplemental Construction Observations and TestinQ: Any subsequent grading for
development of the subject property should be performed under engineering observation and
testing performed by EnGEN Corporation. Subsequent grading includes, but is not limited to,
any additional overexcavation of cut and/or cut/fill transitions, fill placement, and excavation of
temporary and permanent cut and fill slopes. In addition, EnGEN Corporation, should
observe all foundation excavations. Observations should be made prior to installation of
concrete forms and/or reinforcing steel so as to verify and/or modify, if necessary, the
conclusions and recommendations in this report. Observations of overexcavation cuts, fill
placement, finish grading, utility or other trench backfill, pavement subgrade and base course,
retaining wall backfill, slab presaturation, or other earthwork completed for the developmeiO:
of subject property should be performed by EnGEN Corporation If any of the observations
and testing to verify site geotechnical conditicns 2re not performed by EnGEN Corporation,
liability for the safety and performance of the development is limited to the actual portions of
the project observed and/or tested by EnGEN Corporation,
Plan Review: Subsequent to formulation of final plans and specifications for the project but
before bids for construction are requested, grading and foundation plans for the proposed
development should be reviewed by EnGEN Corporation to verify compatibility with site
geotechnical conditions and conformance with the recommendations contained in this report.
If EnGEN Corporation is not accorded the opportunity to make the recommended review, we
will assume no responsibility for misinterpretation of the recommendations presented in this
report.
Pre-Bid Conference: It is recommended that a pre-bid conference be held with the owner or
an authorized representative, the Project Architect, the Project Civil Engineer, the Project
Geotechnical Engineer and the proposed contractors present. This conference will provide
continuity in the bidding process and clarify questions relative to the supplemental grading
and construction requirements of the project.
Pre-GradinQ Conference: Before the start of any grading, a conference should be held
with the owner or an authorized representative, the contractor, the Project Architect, the
Project Civil Engineer, and the Project Geotechnical Engineer present. The purpose of this
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6.0
Barry & Debbie Rehm
Project No: T2235-LGS
December 2000
Page 7
m8eting should be to clarify questions relating to the intent of the supplemental grading
recommendations and to verify that the project specifications comply with the
recommendations of this geotechnical engineering report. Any special grading procedures
and/or difficulties proposed by the contractor can also be discussed at that time,
CLOSURE: This report has been prepared for use by the parties or project named or
described in this document. It mayor may not contain sufficient information for other parties
or purposes. In the event that changes in the assumed nature, design, or location of the
proposed structure and/or project as described in this report, are planned, the conclusions
and recommendations contained in this report will not be considered valid unless the changes
are reviewed and the conclusions and recommendations of this report modified or verified in
writing. This study was conducted in general accordance with the applicable standards of our
profession and the accepted soil and foundation engineering principles and practices at the
time this report was prepared. No other warranty, implied or expressed beyond the
representations of this report, is made. Although every effort has been made to obtain
information regarding the geotechnical and subsurface conditions of the site, limitations exist
with respect to the knowledge of unknown regional or localized off-site conditions that may
have an impact at the site. The recommendations presented in this report are valid as of the
date of the report. However, changes in the conditions of a property can occur with the
passage of time, whether they are due to natural processes or to the works of man on this
and/or adjacent properties. Ii conditicns are observed or information becomes available
during the design and construction process that are not reflected in this report, EnGEN
C~:';:;oration should be notified so that supplemental evaluations can be performed and the
conclusions and recommendations presented in this report can be modified or verified in
writing. Changes in applicable or appropriate standards of care or practice occur, whether
they result from legislation or the broadening of knowledge and experience. Accordingly, the
conclusions and recommendations presented in this report may be invalidated, wholly or in
part, by changes outside.of the control of EnGEN Corporation which occur in the future.
EnGEN Corporation g
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Barry & Debbie Rehm
Project No: T2235,LGS
December 2000
Page 8
Thank you for the opportunity to provide our services. Often, because of design and construction
details which occur on a project, questions arise concerning the geotechnical conditions on the site.
If we can be of further service or should you have questions regarding this report, please do not
hesitate to contact this office at your convenience. Because of our involvement in the project to date,
we would be pleased to discuss engineering testing and observation services that may be applicable
on the project.
Respectfully submitted,
EnGEN Corporation
Thomas Dewey, C
Senior Engineerin
Expires 11-30-01
TD/OB:rr
~'7 ,GE 62
Princ' al Geotechnical Engineer
Ex res 09-30-01
Distribution: (4) Addressee
FILE: EnGEN\Reporting\GS\T223S.lGS. Bany & Debbie Rehm, Limited Geotechnical Study
EnGEN Corporation '{