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Effects of Temperature Variations on Precast, Prestressed Concrete Bridge Girders
The monitoring of a precast, prestressed girder bridge during fabrication and service provided the opportunity to observe temperature variations and to evaluate the accuracy of calculated strains and cambers. The use of high curing temperatures during fabrication affects the level of prestress becau...
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| Published in: | Journal of bridge engineering 2005-03, Vol.10 (2), p.186-194 |
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| Main Authors: | , , |
| Format: | Article |
| Language: | English |
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| cites | cdi_FETCH-LOGICAL-a446t-713bc92c71aebcc7758e2f4e815b5f0025d9646976e377b9a48ff7973e4210773 |
| container_end_page | 194 |
| container_issue | 2 |
| container_start_page | 186 |
| container_title | Journal of bridge engineering |
| container_volume | 10 |
| creator | Barr, P. J Stanton, J. F Eberhard, M. O |
| description | The monitoring of a precast, prestressed girder bridge during fabrication and service provided the opportunity to observe temperature variations and to evaluate the accuracy of calculated strains and cambers. The use of high curing temperatures during fabrication affects the level of prestress because the strand length is fixed during the heating, the coefficients of thermal expansion of steel and concrete differ, and the concrete temperature distribution may not be uniform. For the girders discussed here, these effects combined to reduce the calculated prestressing stress from the original design values at release by 3 to 7%, to reduce the initial camber by 26 to 40%, and to increase the bottom tension stress in service by 12 to 27%. The main effect of applying the standard service temperature profiles to the bridge was to increase the bottom stress by 60% of the allowable tension stress. These effects can be compensated for by increasing the amount of prestressing steel, but in highly stressed girders, such an increase leads to increased prestress losses (requiring yet more strands) and higher concrete strength requirements at release. |
| doi_str_mv | 10.1061/(ASCE)1084-0702(2005)10:2(186) |
| format | article |
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J ; Stanton, J. F ; Eberhard, M. O</creator><creatorcontrib>Barr, P. J ; Stanton, J. F ; Eberhard, M. O</creatorcontrib><description>The monitoring of a precast, prestressed girder bridge during fabrication and service provided the opportunity to observe temperature variations and to evaluate the accuracy of calculated strains and cambers. The use of high curing temperatures during fabrication affects the level of prestress because the strand length is fixed during the heating, the coefficients of thermal expansion of steel and concrete differ, and the concrete temperature distribution may not be uniform. For the girders discussed here, these effects combined to reduce the calculated prestressing stress from the original design values at release by 3 to 7%, to reduce the initial camber by 26 to 40%, and to increase the bottom tension stress in service by 12 to 27%. The main effect of applying the standard service temperature profiles to the bridge was to increase the bottom stress by 60% of the allowable tension stress. 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For the girders discussed here, these effects combined to reduce the calculated prestressing stress from the original design values at release by 3 to 7%, to reduce the initial camber by 26 to 40%, and to increase the bottom tension stress in service by 12 to 27%. The main effect of applying the standard service temperature profiles to the bridge was to increase the bottom stress by 60% of the allowable tension stress. 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| identifier | ISSN: 1084-0702 |
| ispartof | Journal of bridge engineering, 2005-03, Vol.10 (2), p.186-194 |
| issn | 1084-0702 1943-5592 |
| language | eng |
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| source | American Society Of Civil Engineers ASCE Journals |
| subjects | TECHNICAL PAPERS |
| title | Effects of Temperature Variations on Precast, Prestressed Concrete Bridge Girders |
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