Evaluation of Properties of Constructed Tubular-Steel Cast-in-Place Pilings

Bridge foundations contribute significantly to the serviceability and efficiency of in-service transportation networks. Foundation failure may lead to catastrophic failure of the entire structure, which in turn results in system failure, loss of life, and detours. When the soil within ground surface...

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Published in:	Transportation research record Vol. 2363; no. 1; pp. 36 - 46
Main Authors:	Harris, Devin K., Gheitasi, Amir, Ahlborn, Theresa M., Mears, Kevin A.
Format:	Journal Article
Language:	English
Published:	Los Angeles, CA SAGE Publications 01-01-2013
Subjects:	Compressive strength Concretes Design engineering Foundations Piles Series (mathematics) Shells Transportation
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Abstract	Bridge foundations contribute significantly to the serviceability and efficiency of in-service transportation networks. Foundation failure may lead to catastrophic failure of the entire structure, which in turn results in system failure, loss of life, and detours. When the soil within ground surface layers fails to satisfy the bearing capacity requirements, deep foundations such as tubular-steel concrete-filled piles are commonly used in practice. A challenge that often exists with these systems is the uncertainty surrounding in-service capacity as well as condition, which is difficult to determine from the surface. As a consequence, transportation agencies such as the Wisconsin Department of Transportation use conservative approaches, such as neglecting the tubular-steel contribution or bounding the compressive strength of the core concrete, to design these systems. This approach, while effective for safety, can yield overly conservative and costly designs. The main purpose of this investigation was to evaluate the behavior of tubular-steel, concrete-filled, cast-in-place pilings, with a concentration on the compressive strength and composite behavior between concrete core and steel shell. In this regard, a series of experimental studies, including composite and noncomposite compression loading, core samples, push-through, and flexural testing together with a compatible finite element analysis, were conducted on a series of field-cast piles with different geometrical properties. The results indicated that the steel shell made a significant contribution to the axial loading capacity of the cast-in-place piles. Moreover, no evidence of bond loss was observed during the corresponding experimental studies.
AbstractList	Bridge foundations contribute significantly to the serviceability and efficiency of in-service transportation networks. Foundation failure may lead to catastrophic failure of the entire structure, which in turn results in system failure, loss of life, and detours. When the soil within ground surface layers fails to satisfy the bearing capacity requirements, deep foundations such as tubular-steel concrete-filled piles are commonly used in practice. A challenge that often exists with these systems is the uncertainty surrounding in-service capacity as well as condition, which is difficult to determine from the surface. As a consequence, transportation agencies such as the Wisconsin Department of Transportation use conservative approaches, such as neglecting the tubular-steel contribution or bounding the compressive strength of the core concrete, to design these systems. This approach, while effective for safety, can yield overly conservative and costly designs. The main purpose of this investigation was to evaluate the behavior of tubular-steel, concrete-filled, cast-in-place pilings, with a concentration on the compressive strength and composite behavior between concrete core and steel shell. In this regard, a series of experimental studies, including composite and noncomposite compression loading, core samples, push-through, and flexural testing together with a compatible finite element analysis, were conducted on a series of field-cast piles with different geometrical properties. The results indicated that the steel shell made a significant contribution to the axial loading capacity of the cast-in-place piles. Moreover, no evidence of bond loss was observed during the corresponding experimental studies.
Author	Harris, Devin K. Gheitasi, Amir Ahlborn, Theresa M. Mears, Kevin A.
Author_xml	– sequence: 1 givenname: Devin K. surname: Harris fullname: Harris, Devin K. – sequence: 2 givenname: Amir surname: Gheitasi fullname: Gheitasi, Amir – sequence: 3 givenname: Theresa M. surname: Ahlborn fullname: Ahlborn, Theresa M. – sequence: 4 givenname: Kevin A. surname: Mears fullname: Mears, Kevin A.
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Cites_doi	10.1016/S1007-0214(06)70248-6 10.1061/(ASCE)0733-9445(2000)126:11(1295) 10.1061/40753(171)105 10.1061/40616(281)76 10.1061/(ASCE)0733-9445(1998)124:10(1125) 10.1061/(ASCE)0733-9445(2002)128:8(1073) 10.1061/(ASCE)0733-9445(2004)130:2(203) 10.1061/(ASCE)0733-9445(2004)130:4(631)
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References	Fam, Qie, Rizkalla 2004; 130 O'Shea, Bridge 2000; 126 Johansson, Gylltoft 2002; 128 Fujimoto, Mukai, Nishiyama, Sakino 2004; 130 Schneider 1998; 124 Baig, Fan, Nie 2006; 11 bibr5-2363-05 bibr1-2363-05 bibr11-2363-05 bibr4-2363-05 bibr10-2363-05 (bibr3-2363-05) 2005 bibr7-2363-05 (bibr12-2363-05) 2010 bibr8-2363-05 (bibr9-2363-05) 2005 (bibr2-2363-05) 2010 bibr6-2363-05
References_xml	– volume: 130 start-page: 203 issue: 2 year: 2004 end-page: 212 article-title: Behavior of Eccentrically Loaded Concrete-Filled Steel Tubular Columns publication-title: Journal of Structural Engineering contributor: fullname: Sakino – volume: 11 start-page: 657 issue: 6 year: 2006 end-page: 666 article-title: Strength of Concrete Filled Steel Tubular Columns publication-title: Tsinghua Science and Technology contributor: fullname: Nie – volume: 130 start-page: 631 issue: 4 year: 2004 end-page: 640 article-title: Concrete-Filled Steel Tubes Subjected to Axial Compression and Lateral Cyclic Loads publication-title: Journal of Structural Engineering contributor: fullname: Rizkalla – volume: 126 start-page: 1295 issue: 11 year: 2000 end-page: 1303 article-title: Design of Circular Thin-Walled Concrete Filled Steel Tubes publication-title: Journal of Structural Engineering contributor: fullname: Bridge – volume: 128 start-page: 1073 issue: 8 year: 2002 end-page: 1081 article-title: Mechanical Behavior of Circular Steel–Concrete Composite Stub Columns publication-title: Journal of Structural Engineering contributor: fullname: Gylltoft – volume: 124 start-page: 1125 issue: 10 year: 1998 end-page: 1138 article-title: Axially Loaded Concrete-Filled Steel Tubes publication-title: Journal of Structural Engineering contributor: fullname: Schneider – volume-title: AASHTO LRFD Bridge Design Specifications year: 2010 ident: bibr2-2363-05 – volume-title: ANSYS User's Manual year: 2010 ident: bibr12-2363-05 – ident: bibr1-2363-05 doi: 10.1016/S1007-0214(06)70248-6 – volume-title: Wisconsin Highway Construction Specifications. year: 2005 ident: bibr3-2363-05 – ident: bibr5-2363-05 doi: 10.1061/(ASCE)0733-9445(2000)126:11(1295) – volume-title: Steel Construction Manual. year: 2005 ident: bibr9-2363-05 – ident: bibr7-2363-05 doi: 10.1061/40753(171)105 – ident: bibr4-2363-05 doi: 10.1061/40616(281)76 – ident: bibr8-2363-05 doi: 10.1061/(ASCE)0733-9445(1998)124:10(1125) – ident: bibr10-2363-05 doi: 10.1061/(ASCE)0733-9445(2002)128:8(1073) – ident: bibr6-2363-05 doi: 10.1061/(ASCE)0733-9445(2004)130:2(203) – ident: bibr11-2363-05 doi: 10.1061/(ASCE)0733-9445(2004)130:4(631)
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SubjectTerms	Compressive strength Concretes Design engineering Foundations Piles Series (mathematics) Shells Transportation
Title	Evaluation of Properties of Constructed Tubular-Steel Cast-in-Place Pilings
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