5PM -       MSE Walls Using Lightweight Fills – State of the Practice and Case Histories  Slopes,
          5:50PM       embankments,  and  retaining  wall  structures  for  infrastructure  projects  are  frequently
                       constructed on sites with less than ideal soil conditions. When unsuitable soils are encountered
                       the goal of the geotechnical engineer is to provide cost-effective solutions to remedy issues
                       related to settlement, stability, and bearing capacity.  When these concerns are present,
                       it can be desirable to use fill materials with low densities in order to reduce the magnitude
                       of  the  applied  loads.    Otherwise,  the  use  of  conventional  or  quarried  select  fill  materials
                       may require more costly ground modification techniques to achieve a suitable factor of
                       safety.  This presentation will explore the use of expanded shale, clay, and slate lightweight
                       aggregates as a cost effective solution on sites with challenging soil conditions.  The content of
                       the presentation will include a general overview of common ground improvement methods
                       and where lightweight aggregate fill options fit.  Specific applications will be reviewed along
                       with select project case histories.

           5PM -       Using Geofoam Block Technology  to Construct Staircases on Compressible
          5:50PM       Foundation  Construction  of  tier  seatings,  staircases,  landscape  terraces  and  terrains,
                       undulating form of fills and access ramps using geofoam blocks in the structures without
                       imposing additional stresses to the structural frame is an attractive application not only in
                       the new construction but also in the renovation projects. In addition to the load reduction
                       function which prevents possible structural rehabilitation if conventional fills are selected,
                       geofoam blocks are also preferred since they provide an economical solution and ease
                       of installation. Two rows of adjacent industrial structures were constructed with elevation
                       differences of 7.5 m between their foundations. CPTU testing program was performed to
                       estimate consolidation and shear strength properties of the local subsurface conditions. Firm
                       to stiff clay with high compressibility extends to a depth of approximately 10.5 m. A layer of
                       hard clay extends from 10.5 m below the ground surface to the refusal cone tip stress at the
                       depth of 12.2 m. Therefore, the mat foundations of these structures were designed as deep
                       foundation using drilled shaft piles. A 7.5 m high staircase with two space landings needed
                       to be constructed in a constricted access area of 6.6 m wide for pedestrian access. During
                       the construction of the drilled shaft pile foundations no subsurface improvement has been
                       considered in the area where the staircase will be constructed. The allowable consolidation
                       settlement criterion was not met if the staircase was selected to construct as a reinforced
                       concrete structure. Mobilization of the equipment to construct the pile foundation of this
                       staircase structure in this constricted area after the completion of industrial structures was a
                       main challenge.  Therefore, geofoam technology was selected to construct this staircase to
                       prevent the total consolidation settlement. Custom cut geofoam blocks with a height of 17
                       cm to accommodate the ease of installation of the risers were used in the block placement
                       plans.  Backslope where the geofoam block staircase constructed was not stable. Therefore,
                       to  prevent  lateral  earth  movement  of  the  7.5  m  high  adjacent  soil  slope  and  increase
                       the stability of the back slope to prevent a possible long-term slope failure, a total of four
                       embedded type cantilever bored piles were constructed. This application is also considered
                       as a side-hill fill where geofoam blocks are placed adjacent to a stable back-slope. Selecting
                       geofoam block technology was a key for the construction of a high staircase structure in a
                       constricted area without the need for a soil improvement. Using geofoam blocks were not
                       only prevented soil improvement but also reduced the project completion time significantly.

           5PM -       Case Studies: Long Term Performance of Cellular  Concrete Fill  in Geotechnical
          5:50PM       Applications Cellular Concrete Fill has been used in Geotechnical projects in the United
                       States since the mid 1970s.  The early applications included Bridge approaches, Roadways,
                       and  replacement  of  poor  soils.    This  presentation  will  examine  a  number  of  these  early
                       projects, first exploring why cellular concrete fill was required.  It will then discuss cellular
                       concrete fill production and installation and the physical properties of the installed fill.  It will
                       also analyze the overall performance of cellular concrete fill in real world conditions over a
                       period of 40+ years.