Impact of Climatic Variation on Design Parameters for Slab on Ground Foundations in Expansive Soils: Fid-Bau Portal

Impact of Climatic Variation on Design Parameters for Slab on Ground Foundations in Expansive Soils

Reed, Ronald F. / Kelley, Monica

Adequate design of post-tensioned residential slab-on-ground foundations in expansive soils is dependent on understanding the geotechnical and climatic factors inherent to the procedure. A method for design of ground-supported slab foundations was developed by the Post-Tensioning Institute (PTI). The design stiffness factors (edge moisture variation distance, e_m, and differential movement, y_m) are derived in part based on the average Thornthwaite Climatic Index, I_m, for the design area. The purpose of this paper is to show, by case study, the importance of changes in water balance as measured by the I_m on expansive soil behavior and in particular to the PTI design stiffness parameters, e_m and y_m. Surveyed differential movements of post-tensioned foundations in two expansive clay formations in the North Texas region, where average I_m, not including the influence of irrigation, is 0, are provided. Data is presented to illustrate that use of the average I_m value results in slab foundations that are under-designed. Recalculation of the published average I_m value for the design area is recommended to account for changes in water balance caused by development, for example the increase in I_m from landscape watering or extreme dry periods. The case histories show that the PTI values for e_m and y_m, using the recalculated I_m are in closer agreement with observed differential movement. The studies also show that PTI y_m values derived using average Thornthwaite values can be in error by 100 percent or more.