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Plans (43) Construction for the West River Terrace residential development began in September 2015 and is ongoing. Below is a summary of our site visits related to the grading and foundation subgrade preparation for the mentioned lots: • Lots 103 - 108, 119- 128 (lots in cut areas) We observed the site stripping of Lots 103 to 108 on September 25, 2015. We observed the site stripping of Lots 119 to 128 on October 2, 2015. On June 27, 2016 we observed prepared lot subgrades. • Lots 90-92 (lots in fill areas) We observed the site stripping on October 2, 2015. Fill placement on Lots 90 to 92 is associated with a MSE retaining wall built along the western perimeter of the lots. We observed prepared retaining wall fill from April 14, 2016 to April 26, 2016. We used a Troxler 3430 nuclear density gauge to test compaction of the fill. On June 27, 2016 we observed prepared lot subgrades. Members of our geotechnical staff observed geotechnical-related tasks identified above on an intermittent and on-call basis. The results of our site visits were summarized in daily field reports, copies of which have been provided to Polygon Northwest, Pacific Community Design, and members of the design and construction team. To the extent observed, the construction outlined above for subgrade preparation of Lots 90, 91, 92, 103, 104, 105, 106, 107, 108, 119, 120, 121, 122, 123, 124, 125, 126, 127, and 128 at the West River Terrace residential development has been completed in general conformance with the intent of the project plans, specifications, and our geotechnical recommendations. Footings for the residences on all the lots at the site can be designed and constructed in accordance with the following recommendations from our December 5, 2014 geotechnical report. Footings can be proportioned for an allowable soil bearing pressure of 2,000 pounds per square foot. A higher value may be possible, depending on the grading plan. The allowable bearing pressure is a net bearing pressure; the weight of the footing and overlying backfill can be ignored in calculating footing size. The allowable bearing pressure applies to the total of dead plus long-term live loads and may be doubled for short-term loads, such as those resulting from wind or seismic forces. Continuous wall and spread footings should be at least 16 and 24 inches wide, respectively. The bottom of exterior footings should be at least 18 inches below the lowest adjacent final grade. The bottom of interior footings should be placed at least 12 inches below the base of the floor slab. For foundations designed in accordance with the recommendations provided above, total post- construction settlement is expected to be less than 1 inch and differential settlement between adjacent foundation elements is expected to be less than 1/2 inch, given the anticipated building loads for wood-framed residences. In wet weather, we recommend placing a sufficient amount of crushed rock(typically 2 to 4 inches) to prevent disturbance to the foundation subgrades. The contractor is responsible for the construction sequencing and methodology for footing excavation and construction. Consequently, the actual amount of rock placed to protect foundation subgrades from C EODESIGNY 2 Polygon-123-03:062816 disturbance in wet weather should be selected by the contractor. Rock used to protect the subgrades during wet weather should cover the foundation-bearing surfaces and be compacted until "well keyed." Any foundation subgrade soil that is disturbed should be removed prior to the placement of crushed rock and/or pouring of the foundations. Lateral loads on footings can be resisted by passive earth pressure on the sides of the structures and by friction on the base of the footings. Our analysis indicates that the available passive earth pressure for footings confined by structural fill, or footings constructed in direct contact with the undisturbed native soil or structural fill, is 350 pounds per cubic foot(pcf). Typically, the movement required to develop the available passive resistance may be relatively large; therefore, we recommend using a reduced passive pressure of 250 pcf. Adjacent floor slabs, pavements, or the upper 12-inch depth of adjacent unpaved areas should not be considered when calculating passive resistance. A coefficient of friction equal to 0.35 may be used when calculating resistance to sliding. ♦ ♦ ♦ We appreciate the opportunity to work with you on this project. If you have questions concerning the information provided, please call. Sincerely, GeoDesign, Inc. PRoWtS Reed S. Kistler, E.I.T C99 4t./0 Geot- hnical Staff � 63114PE ► OFZEGON S h 14, 2° n M. Dimke, P.E., G.E. yIPVN D,14\\L Principal Engineer (EXPIRES: 12/31/17 cc: Mike Waddell, Polygon Homes (via email only) Mike White, City of Tigard (via email only) RSK:SVM:rc One copy submitted(via email only) Document ID: Polygon-123-03-062816-geol-lot_90-92_103-108_1 19-128.docx ©2016 GeoDesign, Inc. All rights reserved. G EODEslGN= 3 Polygon-123-03:062816 L'/1S7 l6, -COO,,f ' C "POLYGON AT WEST RIVER TERRACE'/7240 S7uro LOT 123 HUB AND TACK CERTIFICATION NE & SE 1/4 SEC. 6, T 2 S, R 1 W, W.M. CITY OF TIGARD, WASHINGTON COUNTY, OREGON SURVEYED JUNE 21, 2016 PREPARED FOR: POLYGON NORTHWEST COMPANY 109 E. 13TH ST. - VANCOUVER, WA. 98660 SW JEAN LOUISE ROAD N N89'20'24"E 1 i 26.00' i _ t _ ___ _ _ ool J91:);\ L \ ' - I m 0_ �� '10 I Iw O 11.00'N �-- z 0 W 2, a) • \ e r F-17I LOT w LOT 122 t0:Y po123 z (N z a) W N 0 M `a 0 1 22 3.00' -•- i N o F Pt 6 -0SA 0 REGISTERED m o ( 6.00' PROFESSIONAL 3 LAND SURVEYOR - J /58920'241'W 1 40.00' ��20 25'cv1 0. co 0 0. 9 a < OREGON `—' — JULY 9, 2002 TRACT a TRAVIS C. JANSEN 0 57751 N o RENEWS: 6/30/2017 N °' I, TRAVIS C. JANSEN, A REGISTERED PROFESSIONAL LAND SCALE SURVEYOR IN THE STATE OF OREGON, HEREBY CERTIFY THAT 20 0 10 20 ° I HAVE ACCURATELY SURVEYED AND STAKED THE OFFSETS r. TO THE FOUNDATION ENVELOPE FOR LOT 123 OF THE PLAT 1 INCH = 20 FEET 2 OF "POLYGON AT WEST RIVER TERRACE". 9 DRAWN BY: KPL DATE: 6/23/16 o PA a REVIEWED BY: TaiDATE: 6/23/16 C1FIC COMMUNITY DESIGN PLANNING - ENGINEERING - SURVEYING Z PROJECT NO.: 395-029 (503) 941-9484