Soil Characterization and P-Y Curve Development for Loess

Lateral loads on drilled shafts are often the controlling factor in their design. These lateral loads are transferred to the surrounding soil or rock, and estimation of the capacity of the shaft to resist lateral loads is a critical part of the design. The lateral load-deformation relationship of a drilled shaft and its supporting soil is commonly modeled using the p-y curve method. P-y curves vary with soil type, deposition characteristics and depth, but general curves have been developed to represent common soils. Unfortunately, no p-y curves have been developed to represent the behavior of loess, cemented silt that is common throughtout much of Kansas. This lack of available p-y relationships has meant that less applicable curves, normally those for sandy soils, must be used. The purpose of this research was to define the significant engineering properties of Kansas' loessal soils through a literature review, laboratory tests, and in situ tests and to determine the soil-structure response by performing full scale lateral load tests on six drilled shafts. Laboratory testing included saturated and unsaturated triaxial, direct shear, consolidation and collapse testing. Field tests included standard penetration tests (SPT), cone penetration tests (CPT), vane shear, and pressuremeter testing. Two pairs of shafts with diameters of 30 and 42 in. were tested under static loading. A third pair of 30 in. shafts was tested under repeated loading. Shaft deflections were measured using inclinometer soundings and correlated with the CPT cone tip resistance (q sub c). A hyperbolic model was developed to correlate ultimate soil resistance (P sub uo) to the CPT cone tip resistance (q sub c) for both static and repeated loading at any given depth and was used to develop a family of p-y curves unique to loess. This model may be entered into the commercially available software package LPILE for design of laterally loaded drilled shafts constructed in loess.

• Record URL:
  • https://rosap.ntl.bts.gov/view/dot/37974
• Summary URL:
  • https://rosap.ntl.bts.gov/view/dot/63124
• Corporate Authors:

  University of Kansas, Lawrence

  Department of Civil, Environmental and Architectural Engineering
  1530 West 15th Street
  Lawrence, KS  United States  66045-7609

  Kansas Department of Transportation

  Bureau of Materials and Research, 700 SW Harrison Street
  Topeka, KS  United States  66603-3745
• Authors:
  • Johnson, Rebecca
  • Parsons, Robert L
  • Dapp, Steven
  • Brown, Dan
• Publication Date: 2007-2

Language

• English

Media Info

• Media Type: Digital/other
• Edition: Final Report
• Features: Appendices; Figures; Photos; References; Tables;
• Pagination: 199p

Subject/Index Terms

• TRT Terms: Cone penetrometers; Deflection; Deposition; Field tests; Hyperbolic functions; Inclinometers; Laboratory tests; Literature reviews; Load tests; Loess; Pressure gages; Rocks; Shear strain; Software packages; Soil penetration test; Soils; Triaxial shear tests
• Uncontrolled Terms: Cone tip resistance; Drilled shafts; Lateral loads; P-Y curves; Soil resistance
• Subject Areas: Geotechnology; Highways; I42: Soil Mechanics; I43: Rock Mechanics;

Filing Info

• Accession Number: 01049489
• Record Type: Publication
• Report/Paper Numbers: K-TRAN: KU-05-3
• Contract Numbers: C1483
• Files: NTL, TRIS, STATEDOT
• Created Date: May 21 2007 12:32PM