HomeMy WebLinkAboutSDP 96-14B; LEGOLAND PIRATE SHORES; FINAL SOILS REPORT; 2012-05-25
AS-GRADED REPORT OF ROUGH, FINE, & POST GRADING,
PIRATE ISLAND ATTRACTION, LEGOLAND THEME PARK,
CARLSBAD, CALIFORNIA
Prepared for:
LEGOLAND CALIFORNIA
One LEGOLAND Drive
Carlsbad, California 92008
Project No. 960151-036
May 25, 2012
----Leighton and Associates, Inc. ---•
A LEIGHTON GROUP COMPANY
May 25, 2012
Project No. 960151-036
To: LEGOLAND CALIFORNIA
One LEGOLAND Drive
Carlsbad, California 92008
Attention: Mr. Chris Romero
Subject: As-Graded Report of Rough, Fine and Post Grading, Pirate Island
Attraction, LEGOLAND Theme Park, Carlsbad, California
Introduction
In accordance with your request and authorization, Leighton and Associates, Inc.
(Leighton) has performed geotechnical observation and testing services during the
rough, fine, and post grading operations of the Pirate Island Attraction at LEGOLAND
Theme Park, located in Carlsbad, California (Figure 1). This report summarizes our
geotechnical observations, field and laboratory test results, and the geotechnical
conditions encountered during the rough, fine, and post grading of the site. As of the
date of this report, all grading activities are essentially complete.
Project Description
The subject attraction site is located in the north-center portion of the LEGOLAND
Theme Park immediately north of the existing “Splash Battle” and “Soak ‘n Sail”
attractions, and east of the existing “Water Park”. The proposed attraction includes the
construction of the Pirate Island ride foundations and splash pool, two themed pirate
ships with associated stairway and bridge, an addition to an existing mechanical
building, shade covers at existing building locations, concrete retaining walls containing
the splash pool area, extension of a Keystone segmental retaining wall, landscaping,
curbs, sidewalks and utilities (Apel, 2012).
3934 Murphy Canyon Road, Suite B205 ■ San Diego, CA 92123-4425
858.292.8030 ■ Fax 858.292.0771 ■ www.leightongroup.com
Leighton and Associates, Inc.
A LEIGHTON GROUP COMPANY
960151-036
-2-
Previous Site Grading
The subject site was originally graded as part of the LEGOLAND Theme Park
development under the observation and testing of Leighton and Associates (Leighton,
1998). Grading operations in the area of the proposed Pirate Island Attraction included
the placement of 4 to 18 feet of documented artificial fill overlying Quaternary-aged
Terrace Deposits. It should be noted that up to 15 feet of stockpiled soil or
undocumented fill was placed over the documented fill.
Summary of Rough, Fine and Post Grading Operations
The rough and fine grading for the project was performed by Sierra Pacific West, Inc.
between February 21, 2012 and March 1, 2012. In general, the rough and fine grading
operations included: 1) removal of existing stockpiled and potentially compressible
existing artificial fill and weathered formational material; and 2) the placement of
compacted fill soils to achieve the proposed finished grade. The post grading operations
for the project were performed by Concrete Contractors Interstate, Curtis Hole Drilling,
Berg Electric, Rand Engineering, and Sierra Pacific West between February 21, 2012
and May 8, 2012, and included: 1) utility trench backfill and compaction; 2) observation
of foundations; 3) observation and testing of MSE retaining wall construction and
placement of retaining wall backfills. Post-grading activities were performed under the
observation and testing of a representative of Leighton in accordance with the project
geotechnical recommendations (Leighton, 2011), additional recommendations made
during the course of grading, and the requirements of the City of Carlsbad. Our field
technician was on-site on a part-time basis, as needed, during the grading operations.
The geotechnical conditions encountered during grading were generally as anticipated.
Site Preparation
Prior to grading, the area was stripped of existing surface pavement, vegetation, and
debris. These materials were hauled away for disposal off-site. Subsequently, the
existing undocumented fill stockpiled over the area of the proposed improvements
was removed to competent older fill soils and to the proposed site grades. As
recommended, the upper 12 inches of soil in areas receiving improvements was
removed and/or scarified and recompacted prior to the placement of additional fill in
accordance with the recommendations of the Geotechnical Investigation (Leighton,
2011). The reprocessed soil was moisture conditioned to near optimum moisture
content and recompacted to a minimum 90 percent relative compaction, based on
ASTM Test Methods D1557.
Leighton
960151-036
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Fill Placement and Compaction
After processing the area to receive additional fill, on-site soil was spread in 4- to 8-
inch loose lifts; moisture conditioned as needed to attain near-optimum moisture
content, and compacted. Field density test results performed during the grading
operations indicated the fill soils were compacted to at least 90 percent of the
maximum dry density in accordance with ASTM Test Methods D1557.
Compaction of the fill soils was achieved by use of heavy-duty construction equipment.
Areas of fill in which field density tests indicated compactions less than the
recommended relative compaction or where the soils exhibited nonuniformity, or had
field moisture contents less than approximate 2 percent the laboratory optimum
moisture content, were reworked. The reworked areas were recompacted and re-
tested until the recommended minimum 90 percent relative compaction and near-
optimum moisture content was achieved.
Trench Backfill
Underground utilities (including sewer, water, storm drain, and electrical lines) were
constructed during the development of the site. During the trench and backfill
operations, native soils were moisture-conditioned, placed in 8 to 12 inch thick loose
lifts, and compacted to a minimum 90 percent relative compaction (based on ASTM
Test Method D1557). Compaction of the trench backfill soils was accomplished by
whacker and/or vibratory wheel-rolling with heavy-duty construction equipment. The
results and description of approximate location of the backfill tests are summarized in
Appendix B.
Summary of Keystone (MSE) Retaining Wall Grading Observation
The grading and construction of the Keystone (MSE) geogrid reinforced retaining wall
located east of the addition to the mechanical building was performed between March
30 and April 6, 2012 by Geogrid Retaining Wall Systems, Inc. Prior to the construction
of the Keystone retaining wall, the foundation and backcut excavations were
geotechnically observed by a representative of Leighton and found to be in general
accordance with the geotechnical recommendations and the retaining wall
construction plans (Leighton, 2011). After the lower portion of the retaining wall was
constructed (but prior to the backfill operations), a 4-inch perforated subdrain was
placed at the base of the retaining wall and backcut. In addition, vertical panel drains
were installed along the backcut and tied into the backcut subdrain. The locations of
subdrain outlet(s) were “as-built” by the contractor on the civil plans.
Leighton
960151-036
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During the construction of the MSE geogrid reinforced retaining wall, on-site soils were
placed in 6 to 12-inch thick loose lifts and moisture-conditioned as needed to obtain
near-optimum moisture content. The fill soils were then compacted to a minimum 90
percent relative compaction (based on ASTM Test Method D1557). Compaction of the
fill soils was accomplished by whacker and/or vibratory wheel-rolling with heavy-duty
construction equipment.
Based on our observations and testing, the soil used to construct the MSE wall were
in conformance with the retaining wall construction plans, and retaining wall design
parameters (Leighton, 2011). The field density test results and description of
approximate location for the retaining wall testing are summarized in Appendix B.
Foundations Excavation Observation
Excavations for conventional spread and continuous footings for the new structures
were observed by representatives of Leighton and found to be with in competent fill
soils or formational material, as recommended in the project geotechnical
recommendations (Leighton, 2011). In addition, excavations for the deep
foundations (drilled piles or CIDH) were observed by representatives of Leighton.
The drilled shafts with diameters ranging from 24 to 72 inches were excavated to the
proposed depths in accordance with the project plans. In general, no groundwater
was encountered during the drilling of the shafts, excluding some minor seepage of
perched ground water in two 24 inch diameter shafts east of the “unload station”. No
caving was encountered during the drilling of the shafts.
Field Density Testing
Field density tests were performed during the placement and compaction of fill and
reinforced fill. Density tests were performed in general accordance with the Nuclear-
Gauge Method (ASTM Test Methods D6938). The results and approximate locations of
the field density tests performed are summarized in Appendix B. The field density testing
was performed in general accordance with the applicable ASTM standards, the current
standard of care in the industry, and the precision of the testing method itself. Variations
in relative compaction should be expected from the results documented herein.
Laboratory Testing
Laboratory maximum dry density tests of representative on-site soils were performed in
general accordance with ASTM Test Method D1557. In addition, a remolded direct shear
test, an Atterberg Limits, and a Particle Size Analysis was performed on the import soil
Leighton
960151-036
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used for the reinforced zone of mechanically stabilized earth (MSE). The laboratory test
results are presented in Appendix C.
Summary of As-Graded Geologic Conditions
Geologic Units
The geologic units encountered during the grading of the site were essentially as
anticipated and consisted of artificial fill and Quaternary-aged Terrace Deposits. The
artificial fill consisted mainly of soils derived from on-site excavations that were placed
during and following the original site grading that occurred in the 1990’s (Leighton,
1998). The majority of the Quaternary-aged Terrace Deposits consists of silty fine to
medium grained sand.
Faulting
Based on our review of published geologic maps and geotechnical observations made
during the rough grading operations for the project, no known faults are present on the
site nor was any evidence of faulting encountered during site grading. The nearest
active regional fault is the Rose Canyon Fault Zone located approximately 4.7 miles
west of the site.
Landslides and Surficial Failures
Based on our geotechnical observations during the rough and fine grading operations,
there were no indications of landslides or other surficial failures within the subject site.
Conclusions of Grading
Based on our geotechnical observations and testing, it is our professional opinion (i.e.,
certifying as defined by the California Business and Professions Code) that the soil
engineering and engineering geologic aspects of the grading are in general compliance
with the approved geotechnical investigation (Leighton, 2011), geotechnical
recommendations made during grading, and the City of Carlsbad requirements.
Limitations
The presence of our field representative at the site was intended to provide the owner
with professional advice, opinions, and recommendations based on observations of the
contractor’s work. Although the observations did not reveal obvious deficiencies or
deviations from project specifications, we do not guarantee the contractor’s work, or his
Leighton
960151-036
A-1
APPENDIX A
References
R.W. Apel, Inc, 2012, Site Plan, Pirate Island, LEGOLAND California, Sheets 001 and
002, dated February 2, 2012.
Dunn Savoie, Inc, 2012, Foundation Plan, Pirate Island, LEGOLAND California, Sheets
S-2.0, S-2.1, S-2.2, S-2.3, S-3.0, and S-3.1, dated February 2, 2012.
Hofman Planning & Engineering, 2012, Precise Grading and Drainage Plan, Pirate
Island, LEGOLAND California, Sheets: C-1.1, C-1.2, and C-1.3, dated
February 2, 2012.
Leighton and Associates, Inc., 1998, Final As-Graded Report of Rough-Grading Lego
Family Park, Carlsbad, California, Project No. 960151-003, dated
February 10, 1998.
_____________, 2011, Geotechnical Investigation, Proposed Pirate Island Attraction,
LEGOLAND Theme Park, Carlsbad, California, Project No. 960151-035,
dated August 12, 2011.
_____________, 2012, As-Graded Geotechnical Conditions and Certification of Pirate Island
Attraction, LEGOLAND Theme Park, Carlsbad, California, dated May 9,
2012.
960151-036
B-1
APPENDIX B
Explanation of Summary of Field Density Tests
Test No.
Prefix
Test of
Test of
Abbreviations
Test No.
Prefix
Test of
Test of
Abbreviations
(none) GRADING
Natural Ground
Original Ground
Existing Fill
Compacted Fill
Slope Face
Finish Grade
NG
OG
EF
CF
SF
FG
(SG)
(AB)
(CB)
(PB)
(AC)
SUBGRADE
AGGREGATE BASE
CEMENT TREATED BASE
PROCESSED BASE
ASPHALT CONCRETE
(S)
(SD)
(AD)
(W)
(RC)
(SB)
(G)
(E)
(T)
(J)
(I)
SEWER
STORM DRAIN
AREA DRAIN
DOMESTIC WATER
RECLAIMED WATER
SUBDRAIN
GAS
ELECTRICAL
TELEPHONE
JOINT UTILITY
IRRIGATION
Bedding Material
Shading Sand
Main
Lateral
Crossing
Manhole
Hydrant Lateral
Catch Basin
Riser
Inlet
Fire Service
Water Services
Head Wall
B
S
M
L
X
MH
HL
CB
R
I
FS
WS
HW
Curb
Gutter
Curb and Gutter
Cross Gutter
Street
Sidewalk
Driveway
Driveway Approach
Parking Lot
Electric Box Pad
Trash Enclosure
Loading Ramp
Building Pad
C
G
CG
XG
ST
SW
D
DA
P
EB
TE
LR
BP
(RW)
(CW)
(LW)
(SF)
RETAINING WALL
CRIB WALL
LOFFELL WALL
STRUCT FOOTING
Footing Bottom
Backfill
Wall Cell
F
B
C
(P) PRESATURATION
Moisture Content
M
(IT) INTERIOR TRENCH
Sewer Lateral
Storm Drain
Electric Line
S
SD
E
N represents nuclear gauge tests that were performed in general accordance with most recent version of ASTM Test
Methods D6938-08a.
S represents sand cone tests that were performed in general accordance with most recent version of ASTM Test Method D1556.
15A represents first retest of Test No. 15
SUMMARY OF FIELD DENSITY TESTS
Test Test Test Location Test Soil Dry Density Moisture (%) Relative(%)
No. Date Of Lot# Elev (ft) Type Field Max Field Opt. ComJ!action Remarks
w 1 3/29/12 M E. Side of Pool 162.0 1 116.2 129.0 8.2 10.0 90
w 2 3/29/12 M E. Side of Pool 164.0 I 117.9 129.0 9.3 10.0 91
w 3 3/30/12 M N. ofMant. Bldg 164.0 2 112.4 124.5 8.6 8.5 90
w 4 3/30/12 M E. of Pool 165.0 2 114.6 124.5 8.7 8.5 92
'
Proiect Number: 960151-036 -~~ Proiect Name: LEGOLAND/PIRATE ISLA
Proiect Location: 0 ~~ Client: a Pa1re 1 of 1
5/24/2 2:09:28PM
SUMMARY OF FIELD DENSITY TESTS
Test Test Test Location Test Soil Dry Density Moisture (%) Relative (%}
No. Date Of Lot# Elev (ft) Type Field Max Field Opt. ComQaction Remarks
E l 3/22/12 M S. of Bull Pen 163.0 2 115.5 124.5 13.1 8.5 93
E 2 3/22/12 M S. of Bull Pen 164.0 1 122.l 129.0 11.2 10.0 95
E ,., 3/23 /12 M S. of Pool 165.0 1 119.2 129.0 9.4 10.0 92 :,
E 4 3/23/12 M N ofMaint. Bldg 166.0 1 118.9 129.0 11.2 10.0 92
E 5 3/23/1 2 M N ofMaint. Bldg 167.0 1 118.2 129.0 13.3 10.0 92
E 6 3/23/12 M S. of Pool 164.0 1 119.1 129.0 11.6 10.0 92
E 7 3/24/12 M S. of Pool 163 .0 1 118.2 129.0 12.2 10.0 92
E 8 5/2/12 M N.E. of Pool 165 .5 1 121.5 129.0 8.0 10.0 94
E 9 5/2/12 M S. of Pool 165.5 1 110.9 129.0 8.8 10.0 86 Retest on 9A
E 9A 5/2/12 M S. of Pool 165.5 1 118.9 129.0 8.8 10.0 92 Retest of9
E 10 5/2/12 M S.E. of Pool 165 .5 1 116.4 129.0 7.9 10.0 90
E I 1 5/2/12 M S. of Pool 165.5 1 118.6 129.0 9.8 10.0 92
Proiect Number: 960151-036 ~ Proiect Name: LEGOLAND/PIRATE ISLA
Proiect Location: 0 ~ Client: 0 Page 1 of 1
5/24/2 2:09 :48PM
SUMMARY OF FIELD DENSITY TESTS
Test Test Test Location Test Soil Dry Density Moisture (%) Relative(%}
No. Date Of Lot# Elev (ft) Tvpe Field Max Field Opt. Com~action Remarks
SD l 2/22/12 M W. Site 163.0 1 116.6 129.0 9.8 10.0 90
SD 2 2/22/12 M V-i. Site 164.5 l 116.9 129.0 10.2 10.0 91
SD 3 2/27/12 M W. Site 166.0 1 120.9 129.0 10.6 10.0 94
SD 4 2/27/12 M S.W. Site 164.0 2 112.3 124.5 9.9 8.5 90
SD 5 2/27/12 M S.W. Site 165 .0 1 117.4 129.0 10.4 10.0 91
SD 6 3/24/12 M S.E. of Pool 164.0 2 113 .2 124.5 7.7 8.5 91
SD 7 3/28/12 M K.W. of Pool 164.0 2 113.4 124.5 11.5 8.5 91
SD 8 3/28/12 M K.W. of Pool 163.0 2 112.7 124.5 10.4 8.5 91
SD 9 3/28/12 M K.W. of Pool 166.0 2 103.6 124.5 11.5 8.5 83 Retest on 9A
SD 9A 3/28/12 M K.W. of Pool 166.0 2 112.7 124.5 11. l 8.5 91 Retest of9
SD 10 3/28/12 M E. of Pool Area 164.0 2 114.2 124.5 9.7 8.5 92
SD 11 3/29/12 M W. of Pool Area 163 .0 2 112.5 124.5 12.1 8.5 90
SD 12 3/30/12 M S. of Pool Area 165.0 2 113.2 124.5 9.6 8.5 91
.
. .
Proiect Number: 96,]151-036
Proiect Name: LEGOLAND/PIRATE ISLA .,
Proiect Location: 0 ~ Client: 0 Pag:e I of 1
5/24/2 2:10 :12PM
SUMMARY OF FIELD DENSITY TESTS
Test Test Test Location Test Soil Dry Density Moisture (%) Relative(%}
No. Date Of Lot# Elev (ft) Type Field Max Field Opt. Com(!action Remarks
s 1 2/21/12 M Pool Drain S. Site 164.0 1 112.5 129.0 9.2 10.0 87 Retest on lA
s IA 2/22/12 M Pool Drain S. Site 164.0 1 117.1 129.0 10.1 10.0 91 Retest of 1
s 2 2/21/12 M Pool Drain S. Site 162.0 1 109.9 129.0 10.6 10.0 85 Retest on 2A
s 2A 2/22/12 M Pool Drain S. Site 162.0 1 117.5 129.0 10.2 10.0 91 Retest of2
s 3 2/22/12 :Ml-I Pool Drain S. Site 162.0 1 116.6 129.0 11.4 10.0 90
s 4 2/22/12 MH Pool Drain S. Site 164.0 2 111.9 124.5 11.0 8.5 90
s 5 2/22/12 :Ml-I Pool Drain S. Site 165.0 1 117.1 129.0 10.2 10.0 91
s 6 2/22/12 M Pool Drain S. Site 166.0 1 119.2 129.0 9.5 10.0 92
s 7 2/22/12 M Pool Drain S. Site 165.0 2 111.8 124.5 8.2 8.5 90
s 8 2/22/12 M Pool Drain S. Site 166.0 2 112.5 124.5 10.2 8.5 90
s 9 2/22/12 :Ml-I Pool Drain S. Site 163.0 1 119.7 129.0 9.8 10.0 93
s 10 2/22/12 :Ml-I Pool Drain S. Site 165.0 1 118.4 129.0 10.6 10.0 92
s 11 3/9/12 M E. ofS. Shio 164.0 1 117.3 129.0 9.6 10.0 91
s 12 3/9/12 M S.ofN. Ship 164.0 1 118.5 129.0 10.6 10.0 92
s 13 3/9/12 M S.E. ofN. Ship 164.0 1 117.7 129.0 11.7 10.0 91
Proiect Number: 960151-036 ~
Proiect Name: LEGOLAND/PIRATE ISLA ~~
Proiect Location: 0 ~,~_.,
Client: 0 Pa12:e 1 of 1 -~
5/24/2 2: 10:46PM
SUMMARY OF FIELD DENSITY TESTS
Test Test Test Location Test Soil Dry Density Moisture(%) Relative(%}
No. Date Of Lot# Elev (ft) Type Field Max Field Opt. Comuaction Remarks
RW 1 3/30/12 B Keystone Wall Station 1 +09 165.4 1 116.1 129.0 8.5 10.0 90
RW 2 3/30/12 B Keystone Wall Station 1+30 165.4 1 116.9 129.0 10.3 10.0 91
RW 3 3/30/12 B Maint. Bldg 160.0 2 111.8 124.5 12.2 8.5 90
RW 4 3/30/12 B Maint. Bldg 162.0 2 112.4 124.5 11.5 8.5 90
RW 5 3/30/12 B Keystone Wall Station 1 + 11 167.6 1 117.6 129.0 10.6 10.0 91
RW 6 3/30/12 B Keystone Wall Station l+ 26 167.6 1 116.7 129.0 11.3 10.0 90
RW 7 3/31/12 B Keystone Wall Station l+ 13 169.6 1 115.9 129.0 8.5 10.0 90
RW 8 3/31/12 B Keystone Wall Station l+ 23 169.6 1 116.2 129.0 10.0 10.0 90
RW 9 3/31/12 B Keystone Wall Station l+ 3 8 169.6 1 115.8 129.0 10.3 10.0 90
RW 10 3/31/12 B Keystone Wall Station 1+20 171.6 1 116.7 129.0 9.5 10.0 90
RW 11 3/31/12 B Keystone Wall Station 1 +40 171.6 1 117.7 129.0 10.4 10.0 91
RW 12 3/31/12 B Keystone Wall Station 1+30 173.0 1 117.9 129.0 11.1 10.0 91
RW 13 4/4/12 B Maint. Bldg 163.0 1 118.1 129.0 9.2 10.0 92
RW 14 4/4/12 B Maint. Bldg 161.0 1 122.7 129.0 9.6 10.0 95
RW 15 4/4/12 B Maint. Bldg 163.0 1 120.1 129.0 9.2 10.0 93
RW 16 4/4/12 B Maint. Bldg 165.0 1 121.1 129.0 9.1 10.0 94
RW 17 4/4/12 B Maint. Bldg 164.5 1 116.1 129.0 8.4 10.0 90
RW 18 4/4/12 B Maint. Bldg 163.0 1 116.8 129.0 8.5 10.0 91
RW 19 4/4/12 B Maint. Bldg 164.0 1 117.4 129.0 11.2 10.0 91
RW 20 4/4/12 B Maint. Bldg 165.0 1 118.0 129.0 8.2 10.0 91
RW 21 4/6/12 B Slope Above Keystone Wall 175.0 1 116.5 129.0 9.9 10.0 90
RW 22 4/6/12 B Slope Above Keystone Wall 177.5 1 117.3 129.0 12.3 10.0 91
RW 23 4/9/12 B East Pool 164.5 1 113.6 129.0 9.0 10.0 88 Retest on 23A
RW 23A 4/9/12 B East Pool 164.5 1 117.4 129.0 10.2 10.0 91 Retest of23
RW 24 4/9/12 B East Pool 163.5 1 119.1 129.0 9.8 10.0 92
RW 25 4/9/12 B East Pool 164.0 1 119.2 129.0 11.6 10.0 92
RW 26 4/9/12 B East Pool 164.5 1 116.4 129.0 10.9 10.0 90
RW 27 4/10/12 B East Pool . 166.0 1 116.5 129.0 9.9 10.0 90
RW 28 4/10/12 B East Pool 166.0 1 117.5 129.0 10.2 10.0 91
RW 29 4/13/12 B South End of Pool 160.0 1 117.3 129.0 9.1 10.0 91
RW 30 4/13/12 B South End of Pool 159.0 1 123.3 129.0 9.2 10.0 96
RW 31 4/13/12 B South End of Pool 158.0 1 120.0 129.0 10.0 10.0 93
Proiect Number: 960151-036
Proiect Name: LEGOLAND/PIRATE ISLA ~'!!! Proiect Location: 0 g;~ Client: 0 Pa2:e 1 of 3
5/24/2 2: 11 :05PM
SUMMARY OF FIELD DENSITY TESTS
Test Test Test Location Test Soil Dry Density Moisture(%) Relative(%}
No. Date Of Lot# Elev (ft) Type Field Max Field Opt. ComQaction Remarks
RW 32 4/13/12 B South End of Pool 161.0 1 124.3 129.0 9.5 10.0 96
RW 33 4/13/12 B South End of Pool 160.0 1 120.7 129.0 9.2 10.0 94
RW 34 4/13/12 B South End of Pool 158.0 1 121.9 129.0 9.8 10.0 94
RW 35 4/13/12 B South End of Pool 162.0 1 115.6 129.0 10.7 10.0 90
RW 36 4/13/1 2 B South End of Pool 161.0 1 120.4 129.0 10.1 10.0 93
RW 37 4/13/12 B South End of Pool 162.0 1 118.6 129.0 9.5 10.0 92
RW 38 4/18/12 B S. Inside Pool Area 160.0 1 115.7 129.0 10.1 10.0 90
RW 39 4/18/12 B S. Inside Pool Area 158.0 1 118.6 129.0 11.2 10.0 92
RW 40 4/18/12 B S. Inside Pool Area 159.0 1 122.5 129.0 9.3 10.0 95
RW 41 4/18/12 B S. Inside Pool Area 161.0 1 117.7 129.0 11.7 10.0 91
RW 42 4/18/12 B S. Inside Pool Area 160.5 1 123.1 129.0 10.9 10.0 95
RW 43 4/18/12 B S. Inside Pool Area 162.0 1 120.4 129.0 10.2 10.0 93
RW 44 4/19/12 B N. Outside of Pool Area 163.0 1 126.1 129.0 10.0 10.0 98
RW 45 4/19/12 B N. Outside of Pool Area 162.0 1 119.4 129.0 9.2 10.0 93
RW 46 4/19/12 B N. Outside of Pool Area 163.0 1 124.1 129.0 11.6 10.0 96
RW 47 4/19/12 B N. Outside of Pool Area 162.0 1 125.9 129.0 10.4 10.0 98
RW 48 4/19/12 B N. Outside of Pool Wall 163.0 1 122.6 129.0 10.3 10.0 95
RW 49 4/19/12 B N.E. Outside Pool Wall 165.0 1 115.8 129.0 10.3 10.0 90
RW 50 4/20/12 B N.E. Outside Pool Wall 165.0 1 117.1 129.0 11.3 10.0 91
RW 51 4/20/12 B S. Side Outside Pool Wall 162.0 1 123.5 129.0 10.5 10.0 96
RW 52 4/20/12 B S. Side Outside Pool Wall 164.0 1 122.0 129.0 10.6 10.0 95
RW 53 4/20/12 B S. Side Outside Pool Wall 165.0 1 122.3 129.0 10.3 10.0 95
RW 54 4/23/12 B W. Outside Pool 163.0 1 120.0 129.0 10.6 10.0 93
RW 55 4/23/12 B S.W. Outside Pool 165.0' 1 122.9 129.0 9.8 10.0 95
RW 56 4/23/1 2 B S. Outside Pool 166.0 1 118.4 129.0 12.5 10.0 92
RW 57 4/23/12 B S. Outside Pool 165.0 1 120.8 129.0 10.2 10.0 94
RW 58 4/24/12 B N.W. Outside Pool 164.0 1 120.0 129.0 9.1 10.0 93
RW 59 4/24/12 B S.E. Outside Pool 166.0 1 119.3 129.0 9.7 10.0 92
RW 60 4/24/12 B S.E. Outside Pool 163.0 1 117.5 129.0 9.5 10.0 91
RW 61 4/30/12 B N.E. Outside Pool 165.8 1 125.1 129.0 10.5 10.0 97
RW 62 4/30/12 B N. Outside Pool 165.3 1 122.5 129.0 10.3 10.0 95
RW 63 4/30/12 B N. Outside Pool 165.0 1 120.6 129.0 9.0 10.0 93
Proiect Number: 960151-036 ~' Proiect Name: LEGOLAND/PIRATE ISLA
Proiect Location: 0 ~i Client: 0 Pa!!e 2 of 3
5/24/2 2: 11 :05PM
SUMMARY OF FIELD DENSITY TESTS
Test Test Test Location Test Soil Dry Density Moisture (%) Relative{%)
No. Date Of Lot# Elev (ft) Tvpe Field Max Field Opt. Com(!action Remarks
RW 64 4/30/12 B N.W. Outside Pool 165.8 1 117.7 129.0 8.8 10.0 91
RW 65 4/30/12 B W. Outside Pool 165.5 1 120.1 129.0 10.0 10.0 93
Proiect Number: 960151-036 ~ Proiect Name: LEGOLAND/PIRATE ISLA
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960151-036
C-1
APPENDIX C
Laboratory Testing Procedures and Test Results
Maximum Density Tests: The maximum dry density and optimum moisture content of
typical materials were determined in accordance with ASTM Test Method D1557. The
results of these tests are presented in the table below:
Sample
Number Sample Description Maximum Dry
Density (pcf)
Optimum
Moisture
Content (%)
1 RED-BROWN SILTY SAND (SM) 129.0 10.0
2 RED-TAN SILTY SAND (SM) 124.5 8.5
Particle Size Analysis: Particle size analysis was performed by mechanical sieving
methods according to ASTM D6913. A plots of the sieve results are provided on a Figure
in this appendix.
Direct Shear Test: A direct shear test was performed on a remolded sample which was
soaked for a minimum of 24 hours under a surcharge equal to the applied normal force
during testing. After transfer of the sample to the shear box and reloading of the sample,
the pore pressures set up in the sample (due to the transfer) were allowed to dissipate for
a period of approximately 1 hour prior to application of shearing force. The sample was
tested under various normal loads utilizing a motor-driven, strain-controlled, direct-shear
testing apparatus at a strain rate of 0.005 inches per minute. After a shear strain of 0.2
inches, the motor was stopped and the sample was allowed to "relax" for approximately
15 minutes. The stress drop during the relaxation period was recorded. It is anticipated
that, in a majority of samples tested, the 15 minutes relaxing of the samples is sufficient to
allow dissipation of pore pressures that may have set up in the samples due to shearing.
The drained peak strength was estimated by deducting the shear force reduction during
the relaxation period from the peak shear values. The shear values at the end of shearing
are considered to be ultimate values and are shown in the attached figure.
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