Title :
Granular backfill selection for direct embedded poles
Author :
DiGioia, Anthony, Jr. ; Hirany, Anwar ; Newman, F. Barry ; Rose, Andrew T.
Author_Institution :
GAI Consultants Inc., Monroeville, PA, USA
Abstract :
The ultimate capacity and moment-displacement behavior of direct embedded transmission line pole foundations are dependent on the strength and deformation properties of the backfill material placed in the annulus surrounding the pole. This paper summarizes research conducted to measure: the strength and deformation properties of granular backfill materials; and their influence on direct embedded pole foundation behavior. The research found that compacted well-graded granular backfills had the greatest stiffness and strength. The degree of compaction has a greater influence on stiffness than strength.
Keywords :
building; erection; poles and towers; power overhead lines; compaction degree; deformation properties; direct embedded pole foundations; granular backfill selection; overhead transmission lines; research; stiffness; strength properties; Friction; Goniometers; Grain size; Particle measurements; Shape; Soil measurements; Stress; Testing;
Conference_Titel :
Transmission & Distribution Construction, Operation & Live-Line Maintenance Proceedings, 1998. ESMO '98. 1998 IEEE 8th International Conference on
Conference_Location :
Orlando, FL, USA
Print_ISBN :
0-7803-4883-4
DOI :
10.1109/TDCLLM.1998.668332
