Effects of Ambient Temperature Changes on Integral Bridges

Effects of Ambient Temperature Changes on Integral Bridges PDF

Author: Bhavik R. Shah

Publisher:

Published: 2008

Total Pages: 190

ISBN-13:

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Integral Bridges (IBs) are joint-less bridges whereby the deck is continuous and monolithic with abutment walls. IBs are outperforming their non-integral counterparts in economy and safety. Their principal advantages are derived from the absence of expansion joints and sliding bearings in the deck, making them the most cost-effective system in terms of construction, maintenance, and longevity. The main purpose of constructing IBs is to prevent the corrosion of structure due to water seepage through joints. The simple and rapid construction provides smooth, uninterrupted deck that is aesthetically pleasing and safer for riding. The single structural unit increases the degree of redundancy enabling higher resistance to extreme events. However, the design of IBs not being an exact science poses certain critical issues. The continuity achieved by this construction results in thermally induced deformations. These in turn introduce a significantly complex and nonlinear soil-structure interaction into the response of abutment walls and piles of the lB. The unknown soil response and its effect on the stresses in the bridge, creates uncertainties in the design. To gain a better understanding of the mechanism of load transfer due to thermal expansion, which is also dependent on the type of the soil adjacent to the abutment walls and piles, a 3D finite element analysis is carried out on a representative IB using state-of-the-art finite element code ABAQUS/Standard 6.5-1. A literature review focusing on past numerical studies of IBs is presented, followed by details of the numerical model developed in this study using the interactive environment ABAQUS/CAE 6.5-1 along with the analysis details. A discussion of results of the analysis of the IB with three different soil conditions, each experiencing three different temperature change scenarios is presented. Conclusions of the study and recommendations for future research wrap up the report. The advancement of knowledge enabled by this research will provide a basis for introduction of new guidelines in Kansas Bridge Design Manual.

The Effects of Temperature Changes, Creep and Shrinkage on the Design of Integral Bridge

The Effects of Temperature Changes, Creep and Shrinkage on the Design of Integral Bridge PDF

Author: Zarina Itam

Publisher:

Published: 2004

Total Pages:

ISBN-13:

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An integral bridge is defined as 'a bridge with bridge abutment that is connected to the bridge deck without any movement joint for expansion or contraction of deck'. When deck joints are not provided, the movements induced in bridge superstructures by secondary stresses must be accommodated by other means. This research is conducted with the aim to analyze specific secondary stresses such as temperature changes, creep and shrinkage and how they affect the integral bridge design through analysis using the Finite Element Method. Application of STAAD.Pro software has been used to model the integral bridge design based on actual data to investigate the effects of movements due to thermal changes and secondary stresses on the design of integral bridge, and the extent of distress ittbringsto the superstructure and substructure.

Integral and Semi-Integral Bridges

Integral and Semi-Integral Bridges PDF

Author: Martin P Burke Jr

Publisher: John Wiley & Sons

Published: 2009-06-17

Total Pages: 272

ISBN-13: 1444316370

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Worldwide, integral type bridges are being used in greater numbersin lieu of jointed bridges because of their structural simplicity,first-cost economy, and outstanding durability. In the UK and theUS states of Tennessee and Missouri, for example, the constructionof most moderate length bridges is based on the integral bridgeconcept. The state of Washington uses semi-integral bridges almostexclusively, while, depending on subfoundation characteristics, thestate of Ohio and others use a mix of these two bridge types. Integral and Semi-Integral Bridges has been written by apracticing bridge design engineer who has spent his entire careerinvolved in the origination, evaluation and design of such bridgesin the USA, where they have been in use since the late1930’s. This work shows how the analytical complexity due tothe elimination of movable joints can be minimized to negligiblelevels so that most moderate length bridges can be easily andquickly modified or replaced with either integral or semi-integralbridges. Bridge design, construction, and maintenance engineers; bridgedesign administrators; graduate level engineering students andstructural research professionals will all find this bookexceptionally informative for a wide range of highway bridgeapplications.

Integral Bridges

Integral Bridges PDF

Author: George L. England

Publisher: Thomas Telford

Published: 2000

Total Pages: 178

ISBN-13: 9780727728456

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This work was commissioned by the Highways Agency to produce guidance for bridge designers by addressing the thermally induced soil/structure integration problem created by environmental changes of temperature and the associated cyclical displacements imposed on the granular backfill to the bridge abutments. It develops a better theoretical understanding of the cyclic performance, in particular the strain racheting in the backfill soil when in contact with a stiff structure. It also identifies the governing soil parameters and examines their influence in the interaction problem, develops numerical modelling procedures to predict interactive soil behaviour, and identifies and quantifies the controlling features of bridge structures relevant to the interaction problem.

Temperature Effects on Integral Abutment Bridges for the Long-term Bridge Performance Program

Temperature Effects on Integral Abutment Bridges for the Long-term Bridge Performance Program PDF

Author: Leo Rodriguez

Publisher:

Published: 2012

Total Pages: 81

ISBN-13:

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PUBLIC ABSTRACT: The Long-Term Bridge Performance (LTBP) program was started by the Federal Highway Administration (FHWA) in 2009 to gather high-quality data on a collection of typical bridges over a twenty-year period of time. The goal of this program is to create databases of high quality data acquired through long-term instrumentation of the bridges behavior during their service life. The data gathered will be used to improve design practices and effective management of infrastructures. As part of the LTBP Program two integral abutment bridges, a California Bridge near Sacramento, CA and a Utah Bridge near Perry, UT, were selected to be monitored for temperature changes as well as to undergo periodic live-load testing. Live-load testing included slowly driving a truck over the bridges. The bridges were instrumented to collect test data and use it to calibrate a finite-element model. This finite-element model was used to determine the actual bridge behavior and compare it with the AASHTO LRFD Specifications.

Building for the Future: Durable, Sustainable, Resilient

Building for the Future: Durable, Sustainable, Resilient PDF

Author: Alper Ilki

Publisher: Springer Nature

Published: 2023-05-31

Total Pages: 1969

ISBN-13: 3031325192

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This book presents the proceedings of the fib Symposium “Building for the future: Durable, Sustainable, Resilient”, held in Istanbul, Turkey, on 5–7 June 2023. The book covers topics such as concrete and innovative materials, structural performance and design, construction methods and management, and outstanding structures. fib (The International Federation for Structural Concrete) is a not-for-profit association whose mission is to develop at an international level the study of scientific and practical matters capable of advancing the technical, economic, aesthetic, and environmental performance of concrete construction.

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