HomeMy WebLinkAboutX2016-4206 - SoilsCOAST GEOTECHNICAL, INC.
1200 W. Commonwealth Avenue, Fullerton, CA 92833 * Ph: (714) 870-1211 * Fax: (714) 870-1222 * E-mail: coastgeotec@sbeglobal.net
e
December 18, 2017
Ms. Roberta Feuerstein
C/o Harbour Bay Homes Development
1614 Warwick Lane
Newport Beach, CA 92660
References:
W. 0.507716-05
X2016 - X1206
301 v;a Lido Soul
Subject: Rough Grade Compaction Report for Proposed
Addition at 301 Via Lido Soud, Newport Beach,
California
1. Geotechnical Engineering Investigation of Proposed Addition at 301 Via Lido
Soud, Newport Beach, California; by COAST GEOTECHNICAL, INC., W.O.
507716-01, dated May 27, 2016.
2. Response to Geotechnical Comments, Proposed Addition at 301 Via Lido Soud,
Newport Beach, California; by COAST GEOTECHNICAL, INC., W.O. 507716-
02, dated May 4, 2017.
3. Shoring Design, Propsed Addition at 301 Via Lido Soud, Newport Beach,
California; by COAST GEOTECHNICAL, INC., W.O. 507716-03, dated July 27,
2017.
4. Temporary Shoring Along Property Line, Proposed Addition at 301 Via Lido
Soud, Newport Beach, California; by COAST GEOTECHNICAL, INC., W.O.
507716-04, dated August 29, 2017.
Dear Ms. Feuerstein:
Forwarded herewith is the rough grade compaction report for the subject site. Our observations
and testing were performed periodically, as requested. The grading operation for the proposed
addition consisted of an over -excavation and recompaction, by track rolling, to provide
uniformly compacted fill soils for the proposed residential addition area. The grading operation
was conducted from December 14, 2017 through December 15, 2017.
PLACEMENT OF FILL
Compacted fill material was placed to provide adequate support for the proposed residential
addition.
The over -excavation of the proposed addition area extended into competent native material. The
depth of over -excavation was about three to three and a half feet below final grade. The exposed
COAST GEOTECHNICAL, INC.
Ms. Roberta Feuerstein 2 W.O. 507716-05
Rough Grade Compaction Report December 18, 2017
surface was scarified, moisture conditioned, and compacted to a minimum of 90% relative
compaction.
Subsequent fills were placed in six to eight inch loose lifts, moisture conditioned as needed, and
compacted to a minimum of 90% relative compaction by track rolling.
Limits of grading are shown on the attached Plate 1.
Equipment used for the compaction of fill soils consisted of a Kubota SVL 95 rubber track
loader. Soils were moisture conditioned with a hose. Earthwork was by Tight Quarters.
TESTING
Maximum density optimum moisture relationship determinations were performed for each soil
type encountered during grading operations. Test results were as follows:
Laboratory Standard: (ASTM:D-1557)
4 -inch diameter mold; 1/30 83 volume;
5 layers at 25 blows per layer;
10 lb. hammer dropped 18 inches
pp t
:gf t;tf F t
g
Moj ir,
`
•T Y 3r _S Yk 3
ssrficatron
41mllm
p,
IDry Denszty, TbS/fit
t„y� .
it t,Cla
_,.4.....
;NeNiax
We s'
Tan Brown Slightly Silty, Fine
1
9.0
123.0
to Medium -Grained Sand
Compaction tests were performed a minimum of every two feet and/or 500 cubic yards of
compacted fill soils placed. These tests were performed in accordance with an ASTM test
method. The test results are summarized in Table 1. The approximate test locations are shown on
Plate 1. Areas not tested were probed to show adequate compaction.
I all]HY- Y INIM
The proposed structure will be supported by a conventional foundation system.
A conventional foundation system may be designed utilizing spread footings and/or isolated pad
footings placed a minimum depth of 24 inches below lowest adjacent grade utilizing an
allowable bearing value of 1,500 pounds per square foot. This value is for dead plus live load
and may be increased 1/3 for total including seismic and wind loads where allowed by code. The
structural engineer's reinforcing requirements should be followed if more stringent.
Where isolated pads are utilized, they shall be tied in two directions into adjacent foundations
with grade beams.
COAST GEOTECHNICAL, INC.
Ms. Roberta Feuerstein 3 W.O. 507716-05
Rough Grade Compaction Report December 18, 2017
Foundations shall be reinforced with a minimum of four #5 bars, two top and two bottom, The
structural engineer's recommendations for reinforcement shall be utilized where more severe.
Footing excavations shall be observed by a representative of COAST GEOTECHNICAL, INC.,
prior to placement of steel or concrete to verify competent soil conditions. If unacceptable soil
conditions are exposed mitigation will be recommended.
Regardless of the type of foundation elected, the owner shall recognize and accept that use of
existing foundations in conjunction with new structural elements may result in some differential
settlement or movement. Possible minor structural and cosmetic cracking between new and
existing foundations may develop as subgrade soils adjust to the newly established loads. The
risk of cracking shall be considered in choice of floor covering, and appropriate construction
methods and care shall be implemented where inflexible and fragile finish surfaces are proposed.
Additional loads to existing foundations may induce settlement of the structure and cracking of
building materials; underpinning of the structure is recommended to help minimize this type of
distress, not eliminate it.
FOUNDATIONS -SECONDARY STRUCTURES
Property line walls, planter walls, and other incidental foundations may utilize conventional
foundation design.
Continuous spread footings or isolated pads placed a minimum depth of 24 inches below lowest
adjacent grade may utilize an allowable bearing value of 1,500 pounds per square foot. This
value is for dead plus live load and may be increased 1/3 for total including seismic and wind
loads where allowed by code.
Where isolated pads are utilized, they shall be tied in two directions into adjacent foundations
with grade beams.
Footing excavations shall be observed by a representative of COAST GEOTECHNICAL, Inc.,
prior to placement of steel or concrete to verify competent soil conditions. If unacceptable soil
conditions are exposed mitigation will be recommended.
Foundations shall be reinforced with a minimum of four #5 bars, two top and two bottom, The
structural engineer's recommendations for reinforcement shall be utilized where more severe.
LATERAL DESIGN
Lateral restraint at the base of footings and on slabs may be assumed to be the product of the
dead load and a coefficient of friction of .35. Passive pressure on the face of footings may also be
used to resist lateral forces. A passive pressure of zero at the surface of finished grade, increasing
at the rate of 300 pounds per square foot of depth to a maximum value of 3,000 pounds per
square foot, may be used for compacted fill at this site. If passive pressure and friction are
COAST GEOTECHNICAL, INC.
Ms. Roberta Feuerstein 4 W.O. 507716-05
Roueh Grade Compaction Report December 18, 2017
combined when evaluating the lateral resistance, then the value of the passive pressure should be
limited to 2/3 of the values given above.
FLOOR SLABS
Slab on grades shall be designed in accordance with CBC codes
Site soils are non plastic.
Minimum geotechnical recommendations for slab design are five inches actual thickness with #4
bars at 12 inches on center each way. Slabs shall be tied into perimeter foundations with #4 bars
at 24 inch centers. Structural design may require additional reinforcement and slab thickness.
Subgrade soils shall exhibit a minimum of 90% relative compaction to the depth determined by
the geotechnical engineer. The soil should be kept moist prior to casting the slab. However, if
the soils at grade become disturbed during construction, they should be brought to approximately
optimum moisture content and rolled to a firm, unyielding condition prior to placing concrete.
COAST GEOTECHNICAL, Inc. to verify adequacy of subgrade soils prior to placement of
capillary break or vapor barrier and sand.
Section 4.505.2.1 of the California Green Code requires the use of a capillary break between the
slab subgrade and vapor barrier. The capillary break material shall comply with the
requirements of the local jurisdiction and shall be a minimum of four inches in thickness.
Geotechnically coarse clean sand is acceptable; however, the City of Newport Beach requires the
use of four inches of gravel (1/2 -inch or larger clean aggregate). A heavy filter fabric (Mirafi
140N) shall be placed over the gravels prior to placement of the recommended vapor barrier to
minimize puncturing of the vapor barrier. Additionally, a vibratory plate should be used over the
gravels prior to placement of the recommended filter fabric to • smooth out any sharp
protuberances and consolidate the gravels.
Slab areas should be underlain by a vapor retarder consisting of an engineered plastic film (as
described by ASTM:E-1745). In areas where a moisture sensitive floor covering will be used
and/or where moisture infiltration is not desirable, a vapor barrier with a permeance of less than
0.01perms (consistent with ACI 302.2R-06) such as 15 mil. Stego Wrap Vapor Barrier, or
equivalent, should be considered, and a qualified water proofing specialist should be consulted.
The vapor barrier should be underlain by the above described capillary break materials and filter
cloth. The capillary break materials should be compacted to a uniform condition prior to
placement of the recommended filter cloth and vapor barrier. The vapor barrier should be
properly lapped and sealed. Since the vapor barrier will prevent moisture from draining from
fresh concrete, a better concrete finish can usually be obtained if at least two inches of sand is
spread over the vapor barrier prior to placement of concrete.
COAST GEOTECHNICAL, INC.
Ms. Roberta Feuerstein 5 W.O. 507716-05
Rough Grade Compaction Report December 18, 2017
SEISMIC DESIGN
Based on the CBC the following seismic design parameters are provided. These seismic design
values were determined utilizing latitude 33.614230 and longitude -117.922912 and calculations
from the USGS ground motion parameter calculator. A conservative site class D was assigned to
site earth materials.
• Site Class = D
• Mapped 0.2 Second Spectral Response Acceleration, Ss = 1.710g
• Mapped One Second Spectral Response Acceleration St = 0.632g
• Site Coefficient from Table 1613A.3.3(1), Fa = 1.0
• Site Coefficient from Table 1613A.3.3(2), Fv = 1.5
• Maximum Design Spectral Response Acceleration for short period, SMs = 1.710g
• Maximum Design Spectral Response Acceleration for one -second period, Sm, = 0.948g
• 5% Design Spectral Response Acceleration for short period, SDs = 1.140g
• 5% Design Spectral Response Acceleration for one -second period, SDI = 0.632g
UTILITY LINE BACKFILLS
All utility line backfills, both interior and exterior, shall be compacted to a minimum of
90% relative compaction and shall require testing at a maximum of two -foot vertical intervals.
I:I\:711-ToL119MAO I&IJW.11 �9
Hardscape and slab subgrade areas shall exhibit a minimum of 90% relative compaction to a
depth of at least one foot. Deeper removal and recompaction may be required if unacceptable
conditions are encountered. These areas require testing just prior to placing concrete. Hardscape
shall be at least four inches thick and reinforced with #3 bars on 18 inch centers both ways.
POOL DESIGN
Any future pool and spa shall be designed as free standing and supported by compacted fill
where stated settlements can be tolerated. Pool walls shall be designed to support the water,
having a density of 62.4 pounds per cubic foot without bearing from adjacent soil. The walls
should be able to support the adjacent soil when the pool is empty. The earth pressure may be
calculated as an equivalent fluid pressure of 60 pounds per cubic foot for level backfill, plus the
lateral pressure due to any superimposed surcharge when the pool is empty. Expansion joints
shall be placed between the pool and deck.
The client is advised that non -conventional swimming pools/spas, with zero or infinity edge
construction, are sensitive to settlements, which could cause the pool/spa edge to not function as
designed. If this risk is unacceptable to the client then alternate support of the pool/spa with a
foundation system that reduces differential settlements should be considered.
All pool utility lines shall be backfilled with soils compacted to a minimum of 90% relative
compaction. Where pool lines are sensitive to the use of compaction equipment the trenches shall
COAST GEOTECHNICAL, INC.
Ms. Roberta Feuerstein 6 W.O. 507716-05
Rough Grade Comroaction Rcuort December 18. 2017
be backfilled with one sack slurry. COAST GEOTECHNICAL, Inc. shall verify the backfill of
all trenches.
Pool decking shall be cast free of the swimming pool structure and access openings. The free
space shall be filled with flexible water stop materials. The client is advised that due to the nature
of site soils that some horizontal and vertical movement between the pool and pool decking may
occur over time.
The pool foundation excavation shall be observed and approved by COAST GEOTECHNICAL,
Inc. prior to the placement of reinforcement. These recommendations are subject to change based
on the review of pool plans.
DRAINAGE
Positive drainage should be planned for the site. Drainage should be directed away from
structures via non -erodible conduits to suitable disposal areas. The structure should utilize roof
gutters and down spouts tied directly to yard drainage.
Pipes used for storm/site water drainage should be stout enough to withstand the force of
compaction of the soils above. This force can be considerable, causing some weaker pipes to
collapse. Drainage pipes shall have a smooth interior. Pipes with a corrugated interior can cause
the buildup of deleterious matter, which can impede or block the flow of site waters and, as such,
are not recommended. All storm/site water drainage pipes should be in conformance with the
requirements of Table 1102.5 of the 2013 California Plumbing Code.
Unlined flowerbeds, planters, and lawns should not be constructed against the perimeter of the
structure. If such landscaping (against the perimeter of a structure) is planned, it should be
properly drained and lined or provided with an underground moisture barrier. Irrigation should
be kept to a minimum.
The CBC recommends 5% slope away from structures for landscape areas within ten feet of the
residence, with 2% slope allowable where justified. Our justification is the use roof drains tied into
area drains, the use of area drains, and site grading which will mitigate the potential for moisture
problems beneath a slab on grade. Hardscape areas shall be sloped a minimum of 2% where within
ten feet of the residence unless allowed otherwise by the building official. Minimum drainage shall
be one percent for hardscape areas and two percent for landscape areas for all other areas.
POST -GRADING SERVICES
During construction of the residence, it is recommended, and at times required by the regulatory
agency, the following be observed and/or tested by the geotechnical engineer:
• Excavation of foundations
• Backfill of interior slab areas
• Backfill of interior trenches
• Backfill of exterior utility trenches
COAST GEOTECHNICAL, INC.
Ms. Roberta Feuerstein 7 W.O. 507716-05
Rough Grade Compaction Report December 19 017
Hardscape subb ade
It is the responsibility of the developer to schedule the required observations and testing.
REGULATORY COMPLIANCE
I hereby certify that the subject grading was observed by a representative from this office, and
the work was done in full compliance with the Grading Ordinance of the City of Newport Beach
and in accordance with the best accepted practices of the applicable chapter of the California
Building Code.
All cuts, fills or processing of original ground under the purview of this report have been
completed under the observation of and with selective testing by COAST GEOTECHNICAL,
INC. and found to be in compliance with the Grading Code of the City of Newport Beach. The
completed work has been observed by COAST GEOTECHNICAL, INC., and is considered
adequate for the development. Our findings were made and recommendations prepared in
accordance with generally accepted professional engineering practices, and no further warranty
is implied nor made.
This report is subject to review by the controlling authorities for this project.
We appreciate this opportunity to be of service to you.
Respectfully submitted:
COAST GEOTECHNICAL, INC.
Ming-Tarng Chen RpFESSI
RCE 54011
N0.54011 z)P
Exp. 12-31-17
COAST GEOTECHNICAL, INC.
Ms. Roberta Feuerstein 8 W.O. 507716-05
Rough Grade Compaction Report December 18, 2017
COMPACTION TEST RESULTS
TABLE I
F.G.: Finish Grade
plsjqp
--U
r.r
S6d
D aat c -A,
NT
-51
1
Pad Area
3.03.5
9.0
113.4
1
92.1
12/14/17
2
Pad Area
1.52.0
9.5
112.2
1
91.2
12/14/17
3
Pad Area
3.03.5
9.9
111.8
1
90.9
12/14/17
4
Pad Area
1.52.0
9.4
111.9
1
91.0
12/14/17
5
Pad Area
F.G.
9.5
112.1
1
91.1
12/15/17
6
Pad Area
F.G.
9.1
111.7
1
90.8
12/15/17
F.G.: Finish Grade
COMPACTION TEST LOCATIONS
Scale: 1"= 16'
---------- `�I-------
---�—
20'11^ i
3'd" SIDE
SIDE SETBA K
SETBACK
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Approximate
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PROPERTY LINE 64.75'
Via Lido Soud
Rough Grade Compaction Report
Work Order 507716-05
301 Via Lido Soud
Newport Beach, California
Plate No. 1
COAST GEOTECHNICAL, INC.
COAST GEOTECHNICAL INC.Xa0B6-14,206
.3 01 V;a L;Jo 50 U
1200W. Commonwealth Ave., Fullerton, CA 92833 ■ Ph: (714) 870-1211 ■ Fax: (714)870-1222o Email: coastgeotec@sbcglobal.r
INV.
Daily Observation Report HRS.
W.O.
Date
Name i
Client
Address
❑ Footings ❑ Key Way ❑ Grading �❑"Swim Pool ❑ Trench ❑ Other
Test
No.
Location
Elev.
or
Depth
Moisture
Content
%
Dry
Density
p.c.f.
%
Relative
Compaction
Test
yP
Type
Soil
Type
COAST GEOTECHNICAL INC.
1200W. Commonwealth Ave., Fullerton, CA 92833 w Ph: (714)870-1211 m Fax: (714)870-1222o Email: coastgeotec@sbcglobal.net
INV
Daily Observation Report HRS.
Client
Address
W.O.
Date
Name
ET Footings [:1 Key Way [I Grading El Swim Pool El Trench E! Other
Test
No.
Location
Elev.
or
Depth
Moisture
Content
%
Dry
Density
P.C.f.
%
Relative
compaction
Test
Type
Soil
Type
"7]
Job Progress and Activity:
Comments: 1.
El Acceptable:El Unacceptable
Received By:
COAST GEOTECHNICAL INC.
1200W, Commonwealth Ave, Fullerton, CA 92833 z Ph: (714)870-12110 Fax: (714)870-1222o Email: coastgeotec@sbcglobal.net
Daily Observation Report
W.O.
Date
Name V"
Client f -
Address J(,;
INV.
HRS.
I I
Q' Footings [I Key Way El Grading El swim Pool [I Trench El Other
Test
No.
Location
Elev.
or
Depth
Moisture
Content
%
Dry
Density
P.C.f.
%
Relative
compaction
I
Test
T ype
Soil
I
Type
j
Job Progress and Activity:
7-
Comments:
f'" P, to (
El Acceptable El Unacceptable Page of
Received By:
BY: zz
U OASTGEOTECHurm INC.
1200 W. Commonwealth Ave., Fullerton, CA 92833 - Ph: (714) 870-1211 - Fax: (714) 870-1222 - Email: coastgeotec@sbcglobal.net
INV.
Daily Observation Report HRS.
L.L. M� .e �r A Awfi.Af.,-
—to, ___ —1 I
Elev.
W.O.
Dry
%
Date
Test
Location
or
Content
Density
Relative
Test
Name
No.
Depth
%
Client
Compaction
Type
Type
Address
13 -Footings
13 Key Way OQGrading
0 Swim Pool
0 Trench [3 Other
L.L. M� .e �r A Awfi.Af.,-
—to, ___ —1 I
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Moisture
Dry
%
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Test
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%
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Compaction
Type
Type
Comments:
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L.L. M� .e �r A Awfi.Af.,-
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Comments:
IX
P�Abceptable Unacceptable Pager'- of
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Received By:
Gen Contr. (n 1'l i.. a e i
Sub-Contr.
Report of Special Inspection
Project Name & Address VCaacv° T° Wilr, (:rte rd r•6 _, 301 ViA
Permit Number Y')o I �, -n c! xol%
Inspection Type(s)
ax
Inspection Date(s)
Periodic
[ J Continuous
Describe Inspection Made, including Locations:
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List Tests Made:
Total Inspection "Time Each Day:
List Items Requiring Correction, include uncorrected items previously listed
p+� ' i 9 '11 ,J�
Comments: gait YO fv fS ftY� �
To the best of my knowledge, the work inspected was in accordance with the Building Department
approved design drawings, specifications and applicable workmanship provisions of the U.B.C.
except as noted above. I
Signed: /,��,- (:}„ y1 i Date
Print Full Name: Q k ('x)16' d Registration No.
FORM S 1.021 90
COAST GEOTECHNICAL INC.
1200 W. Commonwealth Ave., Fullerton, CA 92833 - Ph: (714) 870-1211 - Fax: (714) 870-1222 - Email: coastgeotec@sbcglobal.net
INV.
Daily Observation Report HRS.
W.O.
Date
Name
Client
Address
b.,"Footings 0 Key Way [3 Grading 0 Swim Pool 0 Trench 0 Other
Test
No.
Location
Elev.
or
Depth
Moisture
Content
%
Dry
Density
P.C.f.
%
Relative
Compaction
Test
Type
Soil
Type
Job Progress and Activity:
A
Comments:
COAST GEOTECHNICAL INC.
1200 W. Commonwealth Ave., Fullerton, CA 92833 • Ph: (714) 870-1211 • Fax: (714) 870-1222 • Email: coastgeotec@sbcglobal.net
Daily Observation Report INS.
HRS.
W.O.
Date
Name
Client
Address
,7w
Footings ❑ Key Way ❑ Grading ❑ Swim Pool ❑ Trench ❑ Other
Test
No.
Location
Elev.
or
Depth
Moisture
Content
%
Dry
Density
p.c.f.
Relative
Compaction
Test
Type
Soil
Type
L.L. ��..w...w.. w..d A�N..:1..•
b Acceptable ❑ I-Inacceptable
Received By:
e"
Page of
By.
COAST GEOTECHNICAL INC.
1200W. Commonwealth Ave., Fullerton, CA 92833 ■ Ph: (714) 870-1211 ■ Fax: (714) 870-1222 ■ Email: coastgeotec@sbcglobal.net
INV.
Daily Observation Report HRS.
W.O.
Date
Name
Client
Address ;t,t �j P ,($ 0
❑ Footings ❑ Key Way ❑ Grading ❑ Swim Pool ❑ Trench ❑ Other
Test
No.
Location
Elev.
or
Depth
Moisture
Content
%
Dry
Density
p.c.f.
%
Relative
Compaction
Test
yp
Type
Soil
Type
Job Progress and Activity:
Comments:
COAST GEOTECHNICAL INC.
1200 W. Commonwealth Ave., Fullerton, CA 92833 • Ph: (714) 870-1211 • Fax: (714) 870-1222 • Email: coastgeotec@sbcglobal.net
INV.
Daily Observation Report HRS.
W.O.
Date
Name
Client
Address
p Footings ❑ Key Way ❑ Grading ❑ Swim Pool ❑ Trench C Other
Test
No.
Location
Elev.
or
Depth
Moisture
Content
%
Dry
Density
y
p.c.f.
%
Relative
Compaction
Test
T e
yp
Soil
T ype
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Job Progress and Activity:
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Comments:
A
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