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Home My WebLink AboutBRICK STONE APARTMENTS ON HARMONY - Filed SEPD-SURFACE EXPLORATION/PAVEMENT DESIGN REPORT - 2018-01-05Responsive ■ Resourceful ■ Reliable REPORT TOPICS REPORT TOPICS INTRODUCTION ............................................................................................................. 1 SITE CONDITIONS ......................................................................................................... 2 PROJECT DESCRIPTION .............................................................................................. 2 GEOTECHNICAL CHARACTERIZATION ...................................................................... 3 GEOTECHNICAL OVERVIEW ....................................................................................... 3 EARTHWORK................................................................................................................. 4 PAVEMENTS .................................................................................................................. 8 GENERAL COMMENTS ............................................................................................... 12 Note: This report was originally delivered in a web-based format. Orange Bold text in the report indicates a referenced section heading. The PDF version also includes hyperlinks which direct the reader to that section, and clicking on the logo in the top right corner will bring you back to this page. For more interactive features, please view your project online at client.terracon.com. ATTACHMENTS EXPLORATION AND TESTING PROCEDURES SITE LOCATION AND EXPLORATION PLAN EXPLORATION RESULTS (Boring Logs and Laboratory Data) SUPPORTING INFORMATION (General Notes, UCSC Classifications) Geotechnical Engineering Report Right Turn Lane at Brick Stone Apartments ■ Fort Collins, Colorado December 13, 2017 ■ Terracon Project No. 20175093 Responsive ■ Resourceful ■ Reliable REPORT SUMMARY Topic 1 Overview Statement 2 Project Description Plans indicate eastbound Harmony Road will be widened to the south to include an acceleration and deceleration lane providing access to the proposed apartment complex. The widening will include one lane and reconfiguration of the bike lane. Geotechnical Characterization Subsurface conditions encountered in our exploratory boring generally consisted of clayey sand with varying amounts of silt and gravel extending to the maximum depths of exploration of about 10 feet below existing site grades. In some areas about 6 feet of undocumented sandy lean clay fill was encountered above the clayey sands. Earthwork On-site soils typically appear suitable for use as general engineered fill on the site provided they are placed and compacted as described in this report. We anticipate up to about 5 feet of fill will likely be required to construct the embankment for the roadway widening. We have specified certain properties of fill materials in this report to be used to construct the roadway embankment to develop our recommended pavement thickness alternatives. Pavements Recommended pavement thickness for this project include 7 inches of asphalt over 18 inches of aggregate base course. Additional pavement section alternatives and discussion are presented in the report. General Comments This section contains important information about the limitations of this geotechnical engineering report. 1. If the reader is reviewing this report as a pdf, the topics above can be used to access the appropriate section of the report by simply clicking on the topic itself. 2. This summary is for convenience only. It should be used in conjunction with the entire report for design purposes. Geotechnical Engineering Report Right Turn Lane at Brick Stone Apartments ■ Fort Collins, Colorado December 13, 2017 ■ Terracon Project No. 20175093 1 Responsive ■ Resourceful ■ Reliable INTRODUCTION Geotechnical Engineering Report Right Turn Lane at Brick Stone Apartments Eastbound East Harmony Road, East of South College Avenue Fort Collins, Colorado Terracon Project No. 20175093 December 13, 2017 INTRODUCTION This report presents the results of our subsurface exploration and geotechnical engineering services performed for the proposed right-hand turn lane to be located along the eastbound lane of East Harmony Road, east of South College Avenue in Fort Collins, Colorado. The purpose of these services is to provide information and geotechnical engineering recommendations relative to: ■ Subsurface soil conditions ■ Site preparation and earthwork ■ Excavation considerations ■ Pavement design and construction The geotechnical engineering scope of services for this project included the advancement of two test borings to depths of approximately 10 feet below existing site grades. We submitted this report in draft form to the City of Fort Collins for review of recommendations and input. The City has requested that one additional boring be performed at the site once the subgrade is at finished elevation. The additional boring will be completed to a depth of approximately 10 feet below existing site grades. Samples will be tested for swell, R-value and soil classification in order to confirm soil properties and design parameters presented in this report are followed. By following recommendations in this report for fill properties, we believe this additional boring will confirm conditions achieved during construction. It is of high importance that quality control of material properties and proper construction of the embankment is achieved in order to reduce risk of soils not meeting or exceeding expected properties. Maps showing the site and boring locations are provided in the Site Location and Exploration Plan sections, respectively. The results of the laboratory testing performed on soil samples obtained from the site during the field exploration are included on the boring logs and as separate graphs in the Exploration Results section of this report. Geotechnical Engineering Report Right Turn Lane at Brick Stone Apartments ■ Fort Collins, Colorado December 13, 2017 ■ Terracon Project No. 20175093 2 Responsive ■ Resourceful ■ Reliable SITE CONDITIONS The following description of site conditions is derived from our site visit in association with the field exploration and our review of publicly available geologic and topographic maps. Item Description Parcel Information The proposed roadway widening is planned along eastbound East Harmony Road, east of South College Avenue in Fort Collins, Colorado. The approximate Latitude/Longitude of the center of the roadway widening is 40.42340°N/105.07456°W. See Site Location. Existing Improvements East Harmony Road is a four-lane, major arterial with some areas of center turn lanes and landscape islands. The area planned for widening is vacant land planned for the Brick Stone Apartments development. Current Ground Cover The ground surface outside of the existing concrete curb and gutter is covered with native grasses and weeds. Existing Topography The site is relatively flat with a downward slope along the south side of the site toward the proposed Brick Stone Apartment site. PROJECT DESCRIPTION Our initial understanding of the project was provided in our proposal and was discussed in the project planning stage. A period of collaboration has transpired since the project was initiated, and our final understanding of the project conditions is as follows: Item Description Information Provided We were provided with civil drawings for the project prepared by Northern Engineering (Project No. 1229-001; plans dates August 29, 2017) Project Description Plans indicate eastbound East Harmony Road will be widened to the south to include an acceleration and deceleration lane providing access to the proposed apartment complex. The widening will include on lane and reconfiguration of the bike lane. Grading/Slopes Cuts and fills will be necessary for the widening. Our observation of current site grades suggests possibly up to 5 feet of fill placement may be necessary to achieve final grades. Pavements Upon submittal of this report in draft form to the City of Fort Collins for review and approval, we were provided with the following EDAL/ESALS for the proposed right-hand turn lane. EDAL/ESAL: 300/2,190,000 Geotechnical Engineering Report Right Turn Lane at Brick Stone Apartments ■ Fort Collins, Colorado December 13, 2017 ■ Terracon Project No. 20175093 3 Responsive ■ Resourceful ■ Reliable GEOTECHNICAL CHARACTERIZATION Subsurface Profile Specific conditions encountered at each boring location are indicated on the individual boring logs. Stratification boundaries on the boring logs represent the approximate location of changes in soil types; in situ, the transition between materials may be gradual. Details for each of the borings can be found in Exploration Results. A discussion of field sampling and laboratory testing procedures and test results are presented in Exploration and Testing Procedures. Based on the results of the borings, subsurface conditions on the project site can be generalized as follows: Stratum Approximate Depth to Bottom of Stratum (feet) Material Description Consistency/Density Surface 0.4 Topsoil -- 1 About 6 feet below existing side grades, only encountered in boring number two. Fill: Sandy lean clay -- 2 To the maximum depths of exploration of about 10 feet. Clayey sand with varying amounts of silt and gravel Medium dense Conditions encountered at each boring location are indicated on the individual boring logs shown in the Exploration Results section and are attached to this report. Stratification boundaries on the boring logs represent the approximate location of changes in native soil types; in situ, the transition between materials may be gradual. Groundwater Conditions The boreholes were observed while drilling and after completion for the presence and level of groundwater. Groundwater was not observed in the borings while drilling, or for the short duration the borings could remain open. Groundwater level fluctuations occur due to seasonal variations in the amount of rainfall, runoff and other factors not evident at the time the borings were performed. Therefore, groundwater levels during construction or at other times in the life of the pavements may be higher or lower than the levels indicated on the boring logs. However, we do not believe groundwater will significantly impact this project. GEOTECHNICAL OVERVIEW Based on subsurface conditions encountered in the borings, the site appears suitable for the proposed construction from a geotechnical point of view provided certain precautions and design and construction recommendations described in this report are followed. We have identified Geotechnical Engineering Report Right Turn Lane at Brick Stone Apartments ■ Fort Collins, Colorado December 13, 2017 ■ Terracon Project No. 20175093 4 Responsive ■ Resourceful ■ Reliable geotechnical conditions that could impact design, construction and performance of the proposed turn lane. These included existing, undocumented fill, and potentially loose, low strength soils. These conditions will require particular attention in project planning, design and during construction and discussed in greater detail in the following sections. Existing, Undocumented Fill Existing, undocumented fill was encountered in the upper 6 feet of Boring No. 2. Support of pavements on or above existing fill materials is discussed in this report. However, even with the recommended construction procedures, there is an inherent risk for the owner that compressible fill or unsuitable material within or buried by the fill will not be discovered. This risk of unforeseen conditions cannot be eliminated without completely removing the existing fill, but can be reduced by following the recommendations contained in this report. At a minimum, we recommend thoroughly proof rolling the exposed subgrade after stripping to assist with delineating any soft or loose areas that will require repair prior to embankment and roadway construction. Low Strength Soils Loose clayey sand soils were encountered within the borings completed at this site. These materials can be susceptible to disturbance and loss of strength under repeated construction traffic loads and unstable conditions could develop. Stabilization of soft soils may be required at some locations to provide adequate support for construction equipment and final conditions for embankment construction. Terracon should be contacted if these conditions are encountered to observe the conditions exposed and to provide guidance regarding stabilization (if needed). EARTHWORK Earthwork will include clearing and grading, excavations and fill placement. The following sections provide recommendations for use in the preparation of specifications for the work. Site Preparation Prior to placing fill, existing vegetation and root mat should be removed. Complete stripping of the topsoil should be performed in the proposed pavement areas. The subgrade should be proof-rolled with an adequately loaded vehicle such as a fully loaded tandem axle dump truck. The proof-rolling should be performed under the direction of the Geotechnical Engineer. Areas excessively deflecting under the proof-roll should be delineated and subsequently addressed by the Geotechnical Engineer. Such areas should either be removed or modified by stabilizing with fly ash or geotextiles could also be considered as a stabilization technique. Laboratory evaluation is recommended to determine the effect of chemical Geotechnical Engineering Report Right Turn Lane at Brick Stone Apartments ■ Fort Collins, Colorado December 13, 2017 ■ Terracon Project No. 20175093 5 Responsive ■ Resourceful ■ Reliable stabilization on subgrade soils prior to construction. Excessively wet or dry material should either be removed or moisture conditioned and recompacted. Excavation It is anticipated that excavations for the proposed construction can be accomplished with conventional earthmoving equipment. Excavations into the on-site soils will encounter weak and/or saturated soil conditions with possible caving conditions. The soils to be excavated can vary significantly across the site as their classifications are based solely on the materials encountered in widely-spaced exploratory test borings. The contractor should verify that similar conditions exist throughout the proposed area of excavation. If different subsurface conditions are encountered at the time of construction, the actual conditions should be evaluated to determine any excavation modifications necessary to maintain safe conditions. If unexpected fills or underground facilities are encountered, such features should be removed and the excavation thoroughly cleaned prior to backfill placement and/or construction. Depending upon depth of excavation and seasonal conditions, surface water infiltration and/or groundwater may be encountered in excavations on the site. It is anticipated that pumping from sumps may be utilized to control water within excavations. The subgrade soil conditions should be evaluated during the excavation process and the stability of the soils determined at that time by the contractors’ Competent Person. Slope inclinations flatter than the OSHA maximum values may have to be used. The individual contractor(s) should be made responsible for designing and constructing stable, temporary excavations as required to maintain stability of both the excavation sides and bottom. All excavations should be sloped or shored in the interest of safety following local, and federal regulations, including current OSHA excavation and trench safety standards. As a safety measure, it is recommended that all vehicles and soil piles be kept a minimum lateral distance from the crest of the slope equal to the slope height. The exposed slope face should be protected against the elements Subgrade Preparation After the vegetative layer has been removed from the construction area, the top 8 inches of the exposed ground surface should be scarified, moisture conditioned, and recompacted to at least 95 percent of the maximum dry unit weight as determined by ASTM D698 before any new fill or pavement is placed. Geotechnical Engineering Report Right Turn Lane at Brick Stone Apartments ■ Fort Collins, Colorado December 13, 2017 ■ Terracon Project No. 20175093 6 Responsive ■ Resourceful ■ Reliable After the bottom of the excavation has been compacted, engineered fill can be placed to bring the pavement subgrade to the desired grade. Engineered fill should be placed in accordance with the recommendations presented in subsequent sections of this report. The stability of the subgrade may be affected by precipitation, repetitive construction traffic or other factors. If unstable conditions develop, workability may be improved by scarifying and drying. Alternatively, over-excavation of wet zones and replacement with granular materials may be used, or crushed gravel and/or rock can be tracked or “crowded” into the unstable surface soil until a stable working surface is attained. Lightweight excavation equipment may also be used to reduce subgrade pumping. Fill Material Types Originally we understood that the Larimer County Urban Area Street Standards (LCUASS) requirement of soil borings be completed after completion of grading was not being enforced for this project. We based our calculations and analysis to develop recommended pavement thickness on assumed values for fill to be placed as embankment fills for the proposed turn lane. We submitted this report in draft form to the City of Fort Collins for review of recommendations and input. The City has requested that one additional boring be performed at the site once the subgrade is at finished elevation. The additional boring will be completed to a depth of approximately 10 feet below existing site grades. Samples will be tested for swell, R-value and soil classification in order to confirm soil properties and design parameters presented in this report are followed. By following recommendations in this report for fill properties, we believe this additional boring will confirm conditions achieved during construction. It is of high importance that quality control of material properties and proper construction of the embankment is achieved in order to reduce risk of soils not meeting or exceeding expected properties. We recommend the following properties for fill: Gradation Percent finer by weight (ASTM C136) 4” 100 3” 70-100 No. 4 Sieve 50-100 No. 200 Sieve 50 (max.) Soil Properties Values R-Value 20 (minimum) Liquid Limit 30 (max.) Geotechnical Engineering Report Right Turn Lane at Brick Stone Apartments ■ Fort Collins, Colorado December 13, 2017 ■ Terracon Project No. 20175093 7 Responsive ■ Resourceful ■ Reliable Soil Properties Values Plastic Limit 6 (max.) Non-expansive Less than 1.0% expansive when remolded to 97% of the maximum dry unit weight as determined by ASTM D698 and at 1% below optimum moisture content. Terracon should also be retained to provided field density compaction testing during embankment construction. Test results should indicate the earthwork contractor has achieved the required moisture content and percent compaction prior to placement of aggregate base course or pavement materials. We will also obtain samples of the embankment fill for laboratory testing to confirm soil properties are within the recommended limits presented in the table above. Fill Compaction Requirements Engineered fill should be placed and compacted in horizontal lifts, using equipment and procedures that will produce recommended moisture contents and densities throughout the lift. Item Description Fill lift thickness 9 inches or less in loose thickness when heavy, self- propelled compaction equipment is used 4 to 6 inches in loose thickness when hand-guided equipment (i.e. jumping jack or plate compactor) is used Minimum compaction requirements 95 percent of the maximum dry unit weight as determined by ASTM D698. Moisture content cohesive soil (clay) -1 to +3 % of the optimum moisture content Moisture content cohesionless soil (sand) -3 to +3 % of the optimum moisture content 1. We recommend engineered fill be tested for moisture content and compaction during placement. Should the results of the in-place density tests indicate the specified moisture or compaction limits have not been met, the area represented by the test should be reworked and retested as required until the specified moisture and compaction requirements are achieved. 2. Specifically, moisture levels should be maintained low enough to allow for satisfactory compaction to be achieved without the fill material pumping when proofrolled. 3. Moisture conditioned clayey materials should not be allowed to dry out. A loss of moisture within these materials could result in an increase in the material’s expansive potential. Subsequent wetting of these materials could result in undesirable movement. Geotechnical Engineering Report Right Turn Lane at Brick Stone Apartments ■ Fort Collins, Colorado December 13, 2017 ■ Terracon Project No. 20175093 8 Responsive ■ Resourceful ■ Reliable Grading and Drainage All grades must be adjusted to provide effective drainage away from the proposed pavements and existing pavements and buildings during construction and maintained throughout the life of the proposed project. Infiltration of water into pavement excavations must be prevented during construction. Landscape irrigation adjacent to pavements should be minimized or eliminated. Water permitted to pond near or adjacent to the perimeter of the pavements (either during or post- construction) can result in significantly higher soil movements than those discussed in this report. As a result, any estimations of potential movement described in this report cannot be relied upon if positive drainage is not obtained and maintained, and water is allowed to infiltrate the fill and/or subgrade. Flatwork and pavements will be subject to post-construction movement. Maximum grades practical should be used for paving and flatwork to prevent areas where water can pond. In addition, allowances in final grades should take into consideration post-construction movement of flatwork, particularly if such movement would be critical. Exterior Slab Design and Construction Exterior slabs on-grade, exterior architectural features, and utilities founded on, or in backfill or the site soils will likely experience some movement due to the volume change of the material. Potential movement could be reduced by: n Minimizing moisture increases in the backfill; n Controlling moisture-density during placement of the backfill; n Using designs which allow vertical movement between the exterior features and adjoining structural elements; and n Placing control joints on relatively close centers. PAVEMENTS Pavements – Subgrade Preparation Originally, we understood that the Larimer County Urban Area Street Standards (LCUASS) requirement of soil borings be completed after completion of grading was not being enforced for this project. We based our calculations and analysis to develop recommended pavement thickness on assumed values for fill to be placed as embankment fills for the proposed turn lane. We submitted this report in draft form to the City of Fort Collins for review of recommendations and input. The City has requested that one additional boring be performed at the site once the subgrade is at finished elevation. The additional boring will be completed to a depth of Geotechnical Engineering Report Right Turn Lane at Brick Stone Apartments ■ Fort Collins, Colorado December 13, 2017 ■ Terracon Project No. 20175093 9 Responsive ■ Resourceful ■ Reliable approximately 10 feet below existing site grades. Samples will be tested for swell, R-value and soil classification in order to confirm soil properties and design parameters presented in this report are followed. By following recommendations in this report for fill properties, we believe this additional boring will confirm conditions achieved during construction. It is of high importance that quality control of material properties and proper construction of the embankment is achieved in order to reduce risk of soils not meeting or exceeding expected properties. Fill for embankments and pavements should meet fill requirements presented in the Earthwork section of this report. Once acceptable fill that meets all fill requirements has been placed below pavement areas, the subgrade should be carefully evaluated at the time of pavement construction for signs of disturbance or instability. We recommend the pavement subgrade be thoroughly proofrolled with a loaded tandem-axle dump truck prior to final grading and paving. All pavement areas should be moisture conditioned and properly compacted to the recommendations in this report immediately prior to paving. Pavements – Design Recommendations Design of pavements for the project have been based on the procedures outlined in the 1993 Guideline for Design of Pavement Structures prepared by the American Association of State Highway and Transportation Officials (AASHTO) and the Larimer County Urban Area Street Standards (LCUASS). Samples of the on-site materials selected for swell-consolidation testing exhibited no movement to 0.5 percent swell when wetted under an applied pressure of 150 psf which is less than the maximum 2 percent criteria established for determining if swell-mitigation procedures in the pavement sections are required per LCUASS standards. Our recommendations for embankment fill also require the fill to be non-expansive to low swelling. Therefore, swell-mitigation of the subgrade materials prior to pavement operations is not required. Upon submittal of this report in draft form to the City of Fort Collins for review and approval, we were provided with the following an EDLA of 300 and ESALS of 2,190,000 for the proposed right- hand turn lane. For flexible pavement design, a terminal serviceability index of 2.5 was utilized along with an inherent reliability of 90 percent and a design life of 20 years. Using the correlated design R-value of 20, appropriate ESAL, environmental criteria and other factors, the structural numbers (SN) of the pavement sections were determined on the basis of the 1993 AASHTO design equation. In addition to the flexible pavement design analyses, a rigid pavement design analysis was completed based upon AASHTO design procedures. Rigid pavement design is based on an evaluation of the Modulus of Subgrade Reaction of the soils (k-value), the Modulus of Rupture of Geotechnical Engineering Report Right Turn Lane at Brick Stone Apartments ■ Fort Collins, Colorado December 13, 2017 ■ Terracon Project No. 20175093 10 Responsive ■ Resourceful ■ Reliable the concrete, and other factors previously outlined. The design k-value of 100 for the subgrade soil was determined by correlation to the laboratory test results. A modulus of rupture of 600 psi (working stress 450 psi) was used for pavement concrete. The rigid pavement thickness for each traffic category was determined on the basis of the AASHTO design equation. Recommended minimum pavement sections are provided in the table below. Alternative Recommended Pavement Thicknesses (Inches) Asphaltic Concrete Surface Aggregate Base Course Portland Cement Concrete Total A 7 18 - 25 B 9 10 - 19 C - - 9 9 Aggregate base course (if used on the site) should consist of a blend of sand and gravel which meets strict specifications for quality and gradation. Use of materials meeting Colorado Department of Transportation (CDOT) Class 5 or 6 specifications is recommended for aggregate base course. Aggregate base course should be placed in lifts not exceeding 6 inches and compacted to a minimum of 95 percent of the maximum dry unit weight as determined by ASTM D698. Asphaltic concrete should be composed of a mixture of aggregate, filler and additives (if required) and approved bituminous material. The asphalt concrete should conform to approved mix designs stating the Superpave properties, optimum asphalt content, job mix formula and recommended mixing and placing temperatures. Aggregate used in asphalt concrete should meet particular gradations. Material meeting CDOT Grading S specifications or equivalent is recommended for asphalt concrete. Mix designs should be submitted prior to construction to verify their adequacy. Asphalt material should be placed in maximum 3-inch lifts and compacted within a range of 92 to 96 percent of the theoretical maximum (Rice) density (ASTM D2041). Where rigid pavements are used, the concrete should be produced from an approved mix design with the following minimum properties: Properties Value Compressive strength 4,000 psi Cement type Type I or II portland cement Entrained air content (%) 5 to 8 Geotechnical Engineering Report Right Turn Lane at Brick Stone Apartments ■ Fort Collins, Colorado December 13, 2017 ■ Terracon Project No. 20175093 11 Responsive ■ Resourceful ■ Reliable Properties Value Concrete aggregate ASTM C33 and CDOT section 703 Concrete should be deposited by truck mixers or agitators and placed a maximum of 90 minutes from the time the water is added to the mix. Longitudinal and transverse joints should be provided as needed in concrete pavements for expansion/contraction and isolation per ACI 325. The location and extent of joints should be based upon the final pavement geometry. Joints should be sealed to prevent entry of foreign material and doweled where necessary for load transfer. Pavement performance is affected by its surroundings. In addition to providing preventive maintenance, the civil engineer should consider the following recommendations in the design and layout of pavements: n Site grades should slope a minimum of 2 percent away from the pavements; n The subgrade and the pavement surface have a minimum 2 percent slope to promote proper surface drainage; n Consider appropriate edge drainage and pavement under drain systems; n Install pavement drainage surrounding areas anticipated for frequent wetting; n Install joint sealant and seal cracks immediately; n Seal all landscaped areas in, or adjacent to pavements to reduce moisture migration to subgrade soils; and n Placing compacted, low permeability backfill against the exterior side of curb and gutter. Pavements – Construction Considerations Openings in pavement, such as landscape islands, are sources for water infiltration into surrounding pavements. Water collects in the islands and migrates into the surrounding subgrade soils thereby degrading support of the pavement. This is especially applicable for islands with raised concrete curbs, irrigated foliage, and low permeability near-surface soils. The civil design for the pavements with these conditions should include features to restrict or to collect and discharge excess water from the islands. Examples of features are edge drains connected to the storm water collection system or other suitable outlet and impermeable barriers preventing lateral migration of water such as a cutoff wall installed to a depth below the pavement structure. Pavements – Maintenance Preventative maintenance should be planned and provided for an ongoing pavement management program in order to enhance future pavement performance. Preventive maintenance consists of both localized maintenance (e.g. crack and joint sealing and patching) and global maintenance (e.g. surface sealing). Preventative maintenance is usually the first Geotechnical Engineering Report Right Turn Lane at Brick Stone Apartments ■ Fort Collins, Colorado December 13, 2017 ■ Terracon Project No. 20175093 12 Responsive ■ Resourceful ■ Reliable priority when implementing a planned pavement maintenance program and provides the highest return on investment for pavements. GENERAL COMMENTS Our services are conducted with the understanding of the project as described in the proposal, and will incorporate collaboration with the design team as we complete our services to verify assumptions. Revision of our understanding to reflect actual conditions important to our services will be based on these verifications and will be reflected in the final report. The design team should collaborate with Terracon to confirm these assumptions and to prepare the final design plans and specifications. This facilitates the incorporation of our opinions related to implementation of our geotechnical recommendations. Any information conveyed prior to the final report is for informational purposes only and should not be considered or used for decision-making purposes. Our analysis and opinions are based upon our understanding of the geotechnical conditions in the area, the data obtained from our site exploration and from our understanding of the project. Variations will occur between exploration point locations, across the site, or due to the modifying effects of construction or weather. The nature and extent of such variations may not become evident until during or after construction. Terracon should be retained as the Geotechnical Engineer, where noted in the final report, to provide observation and testing services during grading, excavation, foundation construction and other earth-related construction phases of the project. If variations appear, we can provide further evaluation and supplemental recommendations. If variations are noted in the absence of our observation and testing services on-site, we should be immediately notified so that we can provide evaluation and supplemental recommendations. Our scope of services does not include either specifically or by implication any environmental or biological (e.g., mold, fungi, bacteria) assessment of the site or identification or prevention of pollutants, hazardous materials or conditions. If the owner is concerned about the potential for such contamination or pollution, other studies should be undertaken. Our services and any correspondence are intended for the sole benefit and exclusive use of our client for specific application to the project discussed and are accomplished in accordance with generally accepted geotechnical engineering practices with no third party beneficiaries intended. Any third party access to services or correspondence is solely for information purposes only. Reliance upon the services and any work product is limited to our client, and is not intended for third parties. Any use or reliance of the provided information by third parties is done solely at their own risk. No warranties, either express or implied, are intended or made. Site characteristics as provided are for design purposes and not to estimate excavation cost. Any use of our report in that regard is done at the sole risk of the excavating cost estimator as there may be variations on the site that are not apparent in the data that could significantly impact Geotechnical Engineering Report Right Turn Lane at Brick Stone Apartments ■ Fort Collins, Colorado December 13, 2017 ■ Terracon Project No. 20175093 13 Responsive ■ Resourceful ■ Reliable excavation cost. Any parties charged with estimating excavation costs should seek their own site characterization for specific purposes to obtain the specific level of detail necessary for costing. Site safety, and cost estimating including, excavation support, and dewatering requirements/design are the responsibility of others. If changes in the nature, design, or location of the project are planned, our conclusions and recommendations shall not be considered valid unless we review the changes and either verify or modify our conclusions in writing. Geotechnical Engineering Report Right Turn Lane at Brick Stone Apartments ■ Fort Collins, Colorado December 13, 2017 ■ Terracon Project No. 20175093 Responsive ■ Resourceful ■ Reliable EXPLORATION AND TESTING PROCEDURES Field Exploration The field exploration program consists of the following: Number of Borings Planned Boring Depth (feet) 1 Planned Location 2 10 or auger refusal Roadway widening areas 1. Below ground surface Boring Layout and Elevations: We use handheld GPS equipment to locate borings with an estimated horizontal accuracy of +/-20 feet. Field measurements from existing site features may be utilized. If available, approximate elevations are obtained by interpolation from a site specific, surveyed topographic map. Subsurface Exploration Procedures: We advance the borings with a truck-mounted, track- mounted, ATV-mounted rotary drill rig using continuous-flight augers (solid-stem and/or hollow- stem as necessary depending on soil conditions). Three samples are obtained in the upper 10 feet of each boring. In the thin-walled tube sampling procedure, a thin-walled, seamless steel tube with a sharp cutting edge is pushed hydraulically into the soil to obtain a relatively undisturbed sample. In the split-barrel sampling procedure, a standard 2-inch outer diameter split-barrel sampling spoon is driven into the ground by a 140-pound automatic hammer falling a distance of 30 inches. The number of blows required to advance the sampling spoon the last 12 inches of a normal 18-inch penetration is recorded as the Standard Penetration Test (SPT) resistance value. The SPT resistance values, also referred to as N-values, are indicated on the boring logs at the test depths. A 3-inch O.D. split- barrel sampling spoon with 2.5-inch I.D. ring lined sampler may be used where appropriate. Ring- lined, split-barrel sampling procedures are similar to standard split spoon sampling procedure; however, blow counts are typically recorded for 6-inch intervals for a total of 12 inches of penetration. We observe and record groundwater levels during drilling and sampling. For safety purposes, all borings are backfilled with flowable fill after their completion. Our exploration team prepares field boring logs as part of standard drilling operations including sampling depths, penetration distances, and other relevant sampling information. Field logs include visual classifications of materials encountered during drilling, and our interpretation of subsurface conditions between samples. Final boring logs, prepared from field logs, represent the geotechnical engineer's interpretation, and include modifications based on observations and laboratory tests. Geotechnical Engineering Report Right Turn Lane at Brick Stone Apartments ■ Fort Collins, Colorado December 13, 2017 ■ Terracon Project No. 20175093 Responsive ■ Resourceful ■ Reliable Property Disturbance: We backfill borings with flowable fill after completion. Our services do not include repair of the site beyond backfilling our boreholes. Excess auger cuttings are dispersed in the general vicinity of the boreholes. Laboratory Testing The project engineer reviews field data and assigns various laboratory tests to better understand the engineering properties of various soil and rock strata. Exact types and number of tests cannot be defined until completion of field work. Testing will be performed under the direction of a geotechnical engineer and may include the following. ■ Visual classification ■ Water content ■ Dry density ■ Atterberg limits ■ Grain-size analysis ■ One-dimensional swell Our laboratory testing program often includes examination of soil samples by an engineer. Based on the material’s texture and plasticity, we describe and classify soil samples in accordance with the Unified Soil Classification System (USCS). If bedrock samples are obtained, rock classification is conducted using locally accepted practices for engineering purposes; petrographic analysis (if performed) may reveal other rock types. Boring log rock classification is determined using the Description of Rock Properties. SITE LOCATION AND EXPLORATION PLANS SITE LOCATION AND EXPLORATION PLANS SITE LOCATION Right Turn Lane at Brick Stone Apartments on Harmony ■ Fort Collins, CO December 5, 2017 ■ Terracon Project No. 20175093 DIAGRAM IS FOR GENERAL LOCATION ONLY, AND IS NOT INTENDED FOR CONSTRUCTION PURPOSES TOPOGRAPHIC MAP IMAGE COURTESY OF THE U.S. GEOLOGICAL SURVEY QUADRANGLES INCLUDE: FORT COLLINS, CO (1984). SITE EXPLORATION PLAN Right Turn Lane at Brick Stone Apartments on Harmony ■ Fort Collins, CO December 5, 2017 ■ Terracon Project No. 20175093 AERIAL PHOTOGRAPHY PROVIDED BY MICROSOFT BING MAPS DIAGRAM IS FOR GENERAL LOCATION ONLY, AND IS NOT INTENDED FOR CONSTRUCTION PURPOSES EXPLORATION RESULTS EXPLORATION RESULTS 48 9 7 12 92 36-18-18 9-12 10-9-7 N=16 6-6-5 N=11 +0.5/150 0.4 10.5 TOPSOIL CLAYEY SAND WITH GRAVEL (SC), brown, tan, medium dense Boring Terminated at 10.5 Feet GRAPHIC LOG Stratification lines are approximate. In-situ, the transition may be gradual. Hammer Type: Automatic THIS BORING LOG IS NOT VALID IF SEPARATED FROM ORIGINAL REPORT. GEO SMART LOG-NO WELL 20175093 RIGHT TURN LANE A.GPJ TERRACON_DATATEMPLATE.GDT 12/5/17 PERCENT FINES WATER CONTENT (%) DRY UNIT WEIGHT (pcf) LL-PL-PI ATTERBERG LIMITS WATER LEVEL OBSERVATIONS DEPTH (Ft.) 5 10 SAMPLE TYPE FIELD TEST RESULTS SWELL - CONSOL /LOAD (%/psf) DEPTH LOCATION Latitude: 40.5233° Longitude: -105.0751° See Exploration Plan Page 1 of 1 Advancement Method: 4" continous flight auger Abandonment Method: Boring backfilled with auger cuttings upon completion. 1901 Sharp Point Dr Ste C Fort Collins, CO Notes: Project No.: 20175093 Drill Rig: CME 75 Boring Started: 11-07-2017 BORING LOG NO. 1 CLIENT: SEEC Enterprises, LLC Boulder, CO Driller: Drilling Engineers, Inc. Boring Completed: 11-07-2017 PROJECT: Right Turn Lane at Brick Stone Apartments 49 18 13 14 101 107 26-19-7 5-9 2-4-4 N=8 7-10 0.4 6.0 10.0 TOPSOIL FILL - SANDY LEAN CLAY , with gravel, light brown, tan, trace gravel SILTY CLAYEY SAND (SC-SM), light brown, tan, medium dense, trace gravel Boring Terminated at 10 Feet GRAPHIC LOG Stratification lines are approximate. In-situ, the transition may be gradual. Hammer Type: Automatic THIS BORING LOG IS NOT VALID IF SEPARATED FROM ORIGINAL REPORT. GEO SMART LOG-NO WELL 20175093 RIGHT TURN LANE A.GPJ TERRACON_DATATEMPLATE.GDT 12/5/17 PERCENT FINES WATER CONTENT (%) DRY UNIT WEIGHT (pcf) LL-PL-PI ATTERBERG LIMITS WATER LEVEL OBSERVATIONS DEPTH (Ft.) 5 10 SAMPLE TYPE FIELD TEST RESULTS SWELL - CONSOL /LOAD (%/psf) DEPTH LOCATION Latitude: 40.5234° Longitude: -105.0746° See Exploration Plan Page 1 of 1 Advancement Method: 4" continous flight auger Abandonment Method: Boring backfilled with auger cuttings upon completion. 1901 Sharp Point Dr Ste C Fort Collins, CO Notes: Project No.: 20175093 Drill Rig: CME 75 Boring Started: 11-07-2017 BORING LOG NO. 2 CLIENT: SEEC Enterprises, LLC Boulder, CO Driller: Drilling Engineers, Inc. 0 10 20 30 40 50 60 0 20 40 60 80 100 CL or OL CH or OH ML or OL MH or OH "U" Line "A" Line ATTERBERG LIMITS RESULTS ASTM D4318 P L A S T I C I T Y I N D E X LIQUID LIMIT 1901 Sharp Point Dr Ste C Fort Collins, CO PROJECT NUMBER: 20175093 SITE: Eastbound E Harmony Rd and S College Ave Fort Collins, Colorado CLIENT: SEEC Enterprises, LLC Boulder, CO PROJECT: Right Turn Lane at Brick Stone Apartments on Harmony LABORATORY TESTS ARE NOT VALID IF SEPARATED FROM ORIGINAL REPORT. ATTERBERG LIMITS 20175093 RIGHT TURN LANE A.GPJ TERRACON_DATATEMPLATE.GDT 11/29/17 4 - 5.5 9 - 10 36 26 18 19 18 7 48 49 SC SC-SM CLAYEY SAND with GRAVEL SILTY, CLAYEY SAND Boring ID Depth LL PL PI Fines USCS Description 1 2 CL-ML 0 5 10 15 20 25 30 35 40 45 50 55 60 65 70 75 80 85 90 95 100 100 10 1 0.1 0.01 0.001 30 40 1.5 50 6 8 200 4 10 14 1 3/4 1/2 60 GRAIN SIZE IN MILLIMETERS PERCENT FINER BY WEIGHT U.HYDROMETERS. SIEVE OPENING IN INCHES U.S. SIEVE NUMBERS 4 3/8 3 3 100 140 2 GRAIN SIZE DISTRIBUTION ASTM D422 / ASTM C136 6 16 20 1901 Sharp Point Dr Ste C Fort Collins, CO PROJECT NUMBER: 20175093 SITE: Eastbound E Harmony Rd and S College Ave Fort Collins, Colorado CLIENT: SEEC Enterprises, LLC Boulder, CO PROJECT: Right Turn Lane at Brick Stone Apartments on Harmony LABORATORY TESTS ARE NOT VALID IF SEPARATED FROM ORIGINAL REPORT. GRAIN SIZE: USCS-2 20175093 RIGHT TURN LANE A.GPJ TERRACON_DATATEMPLATE.GDT 11/29/17 CLAYEY SAND with GRAVEL (SC) SILTY, CLAYEY SAND (SC-SM) 0.189 0.098 25 12.5 36 26 47.8 49.5 24.9 -10 -8 -6 -4 -2 0 2 4 100 1,000 10,000 AXIAL STRAIN, % PRESSURE, psf SWELL CONSOLIDATION TEST ASTM D4546 NOTES: Sample exhibited 0.5 percent swell upon wetting under an applied pressure of 150 psf. PROJECT NUMBER: 20175093 SITE: Eastbound E Harmony Rd and S College Ave Fort Collins, Colorado CLIENT: SEEC Enterprises, LLC Boulder, CO 1901 Sharp Point Dr Ste C Fort Collins, CO Specimen Identification Classification , pcf 1 92 9 WC, % 2 - 3 ft CLAYEY SAND with GRAVEL LABORATORY TESTS ARE NOT VALID IF SEPARATED FROM ORIGINAL REPORT. TC_CONSOL_STRAIN-USCS 20175093 RIGHT TURN LANE A.GPJ TERRACON_DATATEMPLATE.GDT 11/29/17 PROJECT: Right Turn Lane at Brick Stone Apartments -10 -8 -6 -4 -2 0 2 4 100 1,000 10,000 AXIAL STRAIN, % PRESSURE, psf SWELL CONSOLIDATION TEST ASTM D4546 NOTES: Sample exhibited no movement upon wetting under an applied pressure of 150 psf. PROJECT NUMBER: 20175093 SITE: Eastbound E Harmony Rd and S College Ave Fort Collins, Colorado CLIENT: SEEC Enterprises, LLC Boulder, CO 1901 Sharp Point Dr Ste C Fort Collins, CO Specimen Identification Classification , pcf 2 101 19 WC, % 2 - 3 ft SANDY LEAN CLAY LABORATORY TESTS ARE NOT VALID IF SEPARATED FROM ORIGINAL REPORT. TC_CONSOL_STRAIN-USCS 20175093 RIGHT TURN LANE A.GPJ TERRACON_DATATEMPLATE.GDT 11/29/17 PROJECT: Right Turn Lane at Brick Stone Apartments SUPPORTING INFORMATION SUPPORTING INFORMATION Right Turn Lane at Brick Stone Apartments on Harmony Fort Collins, Colorado 12/05/2017 Terracon Project No. 20175093 500 to 1,000 > 8,000 4,000 to 8,000 2,000 to 4,000 1,000 to 2,000 less than 500 Unconfined Compressive Strength Qu, (psf) Modified Dames & Moore Ring Sampler Standard Penetration Test Trace PLASTICITY DESCRIPTION Water levels indicated on the soil boring logs are the levels measured in the borehole at the times indicated. Groundwater level variations will occur over time. In low permeability soils, accurate determination of groundwater levels is not possible with short term water level observations. DESCRIPTION OF SYMBOLS AND ABBREVIATIONS GENERAL NOTES > 30 11 - 30 Low 1 - 10 Non-plastic Plasticity Index #4 to #200 sieve (4.75mm to 0.075mm Boulders Cobbles 12 in. to 3 in. (300mm to 75mm) Gravel 3 in. to #4 sieve (75mm to 4.75 mm) Sand Silt or Clay Passing #200 sieve (0.075mm) Particle Size Water Level After a Specified Period of Time Water Level After a Specified Period of Time Water Initially Encountered Soil classification is based on the Unified Soil Classification System. Coarse Grained Soils have more than 50% of their dry weight retained on a #200 sieve; their principal descriptors are: boulders, cobbles, gravel or sand. Fine Grained Soils have less than 50% of their dry weight retained on a #200 sieve; they are principally described as clays if they are plastic, and silts if they are slightly plastic or non-plastic. Major constituents may be added as modifiers and minor constituents may be added according to the relative proportions based on grain size. In addition to gradation, coarse-grained soils are defined on the basis of their in-place relative density and fine-grained soils on the basis of their consistency. GRAIN SIZE TERMINOLOGY RELATIVEFINES PROPORTIONS OF SAND AND GRAVEL RELATIVE PROPORTIONS OF DESCRIPTIVE SOIL CLASSIFICATION LOCATION AND ELEVATION NOTES SAMPLING WATER LEVEL FIELD TESTS N (HP) (T) (DCP) UNIFIED SOIL CLASSIFICATION SYSTEM Right Turn Lane at Brick Stone Apartments ■ Fort Collins, Colorado December 5, 2017 ■ Terracon Project No. 20175093 UNIFIED SOIL CLASSI FICATI ON SYSTEM Criteria for Assigning Group Symbols and Group Names Using Laboratory Tests A Soil Classification Group Symbol Group Name B Coarse-Grained Soils: More than 50% retained on No. 200 sieve Gravels: More than 50% of coarse fraction retained on No. 4 sieve Clean Gravels: Less than 5% fines C Cu ‡ 4 and 1 £ Cc £ 3 E GW Well-graded gravel F Cu < 4 and/or 1 > Cc > 3 E GP Poorly graded gravel F Gravels with Fines: More than 12% fines C Fines classify as ML or MH GM Silty gravel F,G,H Fines classify as CL or CH GC Clayey gravel F,G,H Sands: 50% or more of coarse fraction passes No. 4 sieve Clean Sands: Less than 5% fines D Cu ‡ 6 and 1 £ Cc £ 3 E SW Well-graded sand I Cu < 6 and/or 1 > Cc > 3 E SP Poorly graded sand I Sands with Fines: More than 12% fines D Fines classify as ML or MH SM Silty sandG,H,I Fines classify as CL or CH SC Clayey sandG,H,I Fine-Grained Soils: 50% or more passes the No. 200 sieve Silts and Clays: Liquid limit less than 50 Inorganic: PI > 7 and plots on or above “A” line J CL Lean clayK,L,M PI < 4 or plots below “A” lineJ ML Silt K,L,M Organic: Liquid limit - oven dried < 0.75 OL Organic clay K,L,M,N Liquid limit - not dried Organic silt K,L,M,O Silts and Clays: Liquid limit 50 or more Inorganic: PI plots on or above “A” line CH Fat clayK,L,M PI plots below “A” line MH Elastic Silt K,L,M Organic: Liquid limit - oven dried < 0.75 OH Organic clay K,L,M,P Liquid limit - not dried Organic silt K,L,M,Q Highly organic soils: Primarily organic matter, dark in color, and organic odor PT Peat A Based on the material passing the 3-inch (75-mm) sieve B If field sample contained cobbles or boulders, or both, add “with cobbles or boulders, or both” to group name. C Gravels with 5 to 12% fines require dual symbols: GW-GM well-graded gravel with silt, GW-GC well-graded gravel with clay, GP-GM poorly graded gravel with silt, GP-GC poorly graded gravel with clay. D Sands with 5 to 12% fines require dual symbols: SW-SM well-graded sand with silt, SW-SC well-graded sand with clay, SP-SM poorly graded sand with silt, SP-SC poorly graded sand with clay E Cu = D60/D10 Cc = 10 60 2 30 D x D (D ) F If soil contains ‡ 15% sand, add “with sand” to group name. G If fines classify as CL-ML, use dual symbol GC-GM, or SC-SM. H If fines are organic, add “with organic fines” to group name. I If soil contains ‡ 15% gravel, add “with gravel” to group name. J If Atterberg limits plot in shaded area, soil is a CL-ML, silty clay. K If soil contains 15 to 29% plus No. 200, add “with sand” or “with gravel,” whichever is predominant. L If soil contains ‡ 30% plus No. 200 predominantly sand, add “sandy” to group name. MIf soil contains ‡ 30% plus No. 200, predominantly gravel, add “gravelly” to group name. NPI‡ 4 and plots on or above “A” line. OPI< 4 or plots below “A” line. P PI plots on or above “A” line. QPI plots below “A” line. UC (PID) (OVA) Standard Penetration Test Resistance (Blows/Ft.) Hand Penetrometer Torvane Dynamic Cone Penetrometer Unconfined Compressive Strength Photo-Ionization Detector Organic Vapor Analyzer Medium Over 12 in. (300 mm) 0 >12 5-12 <5 Percent of Dry Weight Major Component of Sample Term Modifier With Trace Descriptive Term(s) of other constituents Modifier >30 <15 Percent of Dry Weight Descriptive Term(s) of other constituents With 15-29 High Unless otherwise noted, Latitude and Longitude are approximately determined using a hand-held GPS device. The accuracy of such devices is variable. Surface elevation data annotated with +/- indicates that no actual topographical survey was conducted to confirm the surface elevation. Instead, the surface elevation was approximately determined from topographic maps of the area. Standard Penetration or N-Value Blows/Ft. Descriptive Term (Density) CONSISTENCY OF FINE-GRAINED SOILS Hard Very Dense > 50 Very Stiff 15 - 30 Dense 30 - 50 Stiff 8 - 15 Medium Dense 10 - 29 Medium Stiff 4 - 8 Loose 4 - 9 Soft 2 - 4 Very Loose 0 - 3 Very Soft 0 - 1 (50% or more passing the No. 200 sieve.) Consistency determined by laboratory shear strength testing, field visual-manual procedures or standard penetration resistance STRENGTH TERMS > 30 Descriptive Term (Consistency) Standard Penetration or N-Value Blows/Ft. RELATIVE DENSITY OF COARSE-GRAINED SOILS (More than 50% retained on No. 200 sieve.) Density determined by Standard Penetration Resistance 1.6 7 14 27.2 48.9 4 - 5.5 9 - 10 4 - 5.5 9 - 10 WC (%) LL D30 D10 %Gravel %Fines %Clay 1 2 18 7 18 19 Boring ID Depth USCS Classification PL PI Cc Cu Boring ID Depth D100 D60 %Sand %Silt medium 1 2 coarse fine coarse fine COBBLES GRAVEL SAND SILT OR CLAY Boring Completed: 11-07-2017 PROJECT: Right Turn Lane at Brick Stone Apartments on Harmony See Supporting Information for explanation of symbols and abbreviations. Eastbound E Harmony Rd and S College Ave Fort Collins, Colorado SITE: Not encountered WATER LEVEL OBSERVATIONS on Harmony See Supporting Information for explanation of symbols and abbreviations. Eastbound E Harmony Rd and S College Ave Fort Collins, Colorado SITE: Not encountered WATER LEVEL OBSERVATIONS