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120-6.2.4 Placing Outside Standard Minimum Slope: Where material that is <br /> unsuitable for normal embankment construction is to be used in the embankment outside the <br /> standard minimum slope (approximately one to two), place such material in layers of not more <br /> than 18 inches in thickness, measured loose. The Contractor may also place material which is <br /> suitable for normal embankment, outside such standard minimum slope, in 18 inch layers. <br /> Maintain a constant thickness for suitable material placed within and outside the standard <br /> minimum slope, unless placing in a separate operation. <br /> 120-6.3 Hydraulic Method: <br /> 120-6.3.1 Method of Placing: When the hydraulic method is used, as far as <br /> practicable, place all dredged material in its final position in the embankment by such method. <br /> Place and compact any dredged material that is re-handled, or moved and placed in its final <br /> position by any other method, as specified in 120-7.2.The Contractor may use baffles or any <br /> form of construction he may select, provided the slopes of the embankments are not steeper <br /> than indicated in the plans. Remove all timber used for temporary bulkheads or baffles from <br /> the embankment, and fill and thoroughly compact the holes thus formed.When placing fill on <br /> submerged land, construct dikes prior to beginning of dredging, and maintain the dikes <br /> throughout the dredging operation. <br /> 120-6.3.2 Excess Material: Do not use excess material placed outside the <br /> prescribed slopes, below the normal high-water level,to raise the fill. Remove only the portion <br /> of this material required for dressing the slopes. <br /> 120-6.3.3 Protection of Openings in Embankment: Leave openings in the <br /> embankments at the bridge sites. Remove any material which invades these openings or <br /> existing channels without additional compensation to provide the same depth of channel as <br /> existed before the construction of the embankment. Do not excavate or dredge any material j <br /> within 200 feet of the toe of the proposed embankment. <br /> 120-7 Compaction Requirements. <br /> 120-7.1 Moisture Content: Compact the materials at a moisture content such thatthe <br /> specified density can be attained. If necessary to attain the specified density, add waterto the <br /> material, or lower the moisture content by manipulating the material or allowing it to dry, as is <br /> appropriate. <br /> 120-7.2 Compaction of Embankments: <br /> 120-7.2.1 Earthwork Category 1 and 2 Density Requirements:The Engineer <br /> will accept a minimum density of 95% of the maximum density as determined by AASHTO T- <br /> 99 Method C for all earthwork items requiring densities. <br /> 120-7.2.2 Earthwork Category 3 Density Requirements: The Engineer will <br /> accept a minimum of 100%of the maximum density as determined byAASHTO T-99 Method ' <br /> C for all densities required under category 3. Except for embankments constructed by the i <br /> hydraulic method as specified in 120-6.3, and for the material placed outside the standard <br /> minimum slope as specified in 120-6.2.4, and for other areas specifically excluded herein, <br /> compact each layer of the material used in the formation of embankments to the required <br /> density stated above. Uniformly compact each layer using equipment that will achieve the <br /> required density, and as compaction operations progress, shape and manipulate each layer <br /> as necessary to ensure uniform density throughout the embankment. <br /> 120-7.2.3 Compaction Over Unstable Foundations:Where the embankment <br /> material is deposited in water or on low swampy ground, and in a layer thicker than 12 inches <br /> 01025-28 Technical Specifications <br /> F•\Public Works\ENGINEERING DIVISION PROJECTS\1123 43rd Ave Sidewalk Improvements 26th St.to Airport Dr West\Admim\bid <br /> documents\Master Contract Documents\Technical Specifications.doc <br />