The interaction between a flighted steel pipe pile and frozen sand

The interaction between a flighted steel pipe pile and frozen sand

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Foundation construction in permafrost regions often make use of "thermopiles" or thermal piles to maintain the permafrost and to transfer load to the soil. Often "thermopiles" are constructed using shafts with continuous helical flighting attached to increase bearing capacity. T...

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Main Author: Cuthbertson-Black, Robert
Language:en_US
Published: 2007
Online Access:http://hdl.handle.net/1993/1746
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spelling ndltd-MANITOBA-oai-mspace.lib.umanitoba.ca-1993-17462014-01-31T03:30:53Z The interaction between a flighted steel pipe pile and frozen sand Cuthbertson-Black, Robert Foundation construction in permafrost regions often make use of "thermopiles" or thermal piles to maintain the permafrost and to transfer load to the soil. Often "thermopiles" are constructed using shafts with continuous helical flighting attached to increase bearing capacity. The behaviour of these flights is essentially unknown as is the associated loss of shaft adfreeze during failure. An experimental study using a flighted instrumented segment pile in frozen sand was undertaken. The pile segment was loaded axially to near-failure. Load transferred from the pile segment to the surrounding soil consisted primary of two components; direct bearing by flighting and adfreeze/shaft friction. Flighting carried approximately 75% of the applied axial load, while adfreeze/shaft friction transferred approximately 18% of the load under specific test conditions. At large displacements, yielding at the flighting root resulted in the development of an ultimate axial pile capacity. In general, flighted piles develop significant (1080 kN/m) load transfer capacities. 2007-05-18T19:57:03Z 2007-05-18T19:57:03Z 2001-05-01T00:00:00Z http://hdl.handle.net/1993/1746 en_US
collection NDLTD
language en_US
sources NDLTD
description Foundation construction in permafrost regions often make use of "thermopiles" or thermal piles to maintain the permafrost and to transfer load to the soil. Often "thermopiles" are constructed using shafts with continuous helical flighting attached to increase bearing capacity. The behaviour of these flights is essentially unknown as is the associated loss of shaft adfreeze during failure. An experimental study using a flighted instrumented segment pile in frozen sand was undertaken. The pile segment was loaded axially to near-failure. Load transferred from the pile segment to the surrounding soil consisted primary of two components; direct bearing by flighting and adfreeze/shaft friction. Flighting carried approximately 75% of the applied axial load, while adfreeze/shaft friction transferred approximately 18% of the load under specific test conditions. At large displacements, yielding at the flighting root resulted in the development of an ultimate axial pile capacity. In general, flighted piles develop significant (1080 kN/m) load transfer capacities.
author Cuthbertson-Black, Robert
spellingShingle Cuthbertson-Black, Robert
The interaction between a flighted steel pipe pile and frozen sand
author_facet Cuthbertson-Black, Robert
author_sort Cuthbertson-Black, Robert
title The interaction between a flighted steel pipe pile and frozen sand
title_short The interaction between a flighted steel pipe pile and frozen sand
title_full The interaction between a flighted steel pipe pile and frozen sand
title_fullStr The interaction between a flighted steel pipe pile and frozen sand
title_full_unstemmed The interaction between a flighted steel pipe pile and frozen sand
title_sort interaction between a flighted steel pipe pile and frozen sand
publishDate 2007
url http://hdl.handle.net/1993/1746
work_keys_str_mv AT cuthbertsonblackrobert theinteractionbetweenaflightedsteelpipepileandfrozensand
AT cuthbertsonblackrobert interactionbetweenaflightedsteelpipepileandfrozensand
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