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Behavior of Bridge with Internally Cured Concrete Deck Under Environmental and Truck Loading

2020 Bridges
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Release : 2020
Genre : Bridges
Kind : eBook
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Book Synopsis Behavior of Bridge with Internally Cured Concrete Deck Under Environmental and Truck Loading by : Waleed Khalid Hamid

Download or read book Behavior of Bridge with Internally Cured Concrete Deck Under Environmental and Truck Loading written by Waleed Khalid Hamid. This book was released on 2020. Available in PDF, EPUB and Kindle. Book excerpt: The long-term performance of a bridge deck depends on its resistance to bridge cracking. Most of these cracks are initiated at the early age. Early age cracking of bridge decks is a typical issue in the U.S. that reduces bridge service life. Therefore, internally cured concrete (ICC) has been used in some states to reduce or eliminate the development of cracks in reinforced concrete decks. In this study, the early age behavior of ICC deck and the effect of the internal curing on the long-term behavior of the bridge was measured and evaluated in the laboratory and field for newly adjacent constructed bridge, which were located on Route 271 in Mayfield, Ohio. Two different types of concrete mixtures were utilized for the decks: conventional concrete (CC) and internally cured concrete (ICC). Firstly, the ICC and CC mixtures were examined in the laboratory in terms of a mechanical properties test, a plastic shrinkage test, a free shrinkage test, and a restrained shrinkage test. Second, the field behavior of an ICC deck and an adjacent CC deck during their early age and long-term performance were evaluated. Also, the shrinkage development for both decks was examined during the very early age. Instrumentation was used to measure the concrete and reinforcement strains and the temperature in both bridges. The instrumentation and results for both bridges are discussed. Laboratory results indicated that using pre-wetted lightweight concrete in the concrete mixture led to decreased density, coefficient of thermal expansion, and free shrinkage strain, and increased tensile strength and cracking time of concrete compared to conventional concrete. In the field, from the early age test, it was observed that the time to develop concrete shrinkage was approximately 5-6 hours after casting the deck of the ICC and the CC.

Behavior of Concrete Bridge Decks Under Combined Shrinkage Thermal and Live Loading

2016 Bridges
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Release : 2016
Genre : Bridges
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Book Synopsis Behavior of Concrete Bridge Decks Under Combined Shrinkage Thermal and Live Loading by : Anuoluwa Adediji

Download or read book Behavior of Concrete Bridge Decks Under Combined Shrinkage Thermal and Live Loading written by Anuoluwa Adediji. This book was released on 2016. Available in PDF, EPUB and Kindle. Book excerpt: Designers have consistently been concerned with long term deformation of bridges to mitigate unfavorable effects such as excessive movement and cracking. Furthermore, any developed tool of use to a designer must make use of parameters known at the time of design as well as be simplistic in nature as defined in the code. As such, many prediction models for the free shrinkage of a concrete specimen have been developed toward this end. However, structures designed and placed in the field experience shrinkage under restraint. Also, the differences in environmental conditions affect the shrinkage of structures. It is important to understand the restrained shrinkage of structures under field conditions and use this understanding to make improved guidelines on shrinkage from a design standpoint. In this study, the prediction and modelling of the free shrinkage of small samples under constant conditions were expanded to the prediction and modelling of restrained shrinkage under field conditions of large samples using finite element analysis. A parametric analysis was then performed to derive useful information from a design perspective such as the impact of various design parameters on the performance of a bridge deck. The findings indicated that the use of reinforcement is the preferable method of addressing shrinkage in bridge decks. Furthermore, the efficacy of the amount of reinforcement specified in the AASHTO guidelines to mitigate excessive cracking in bridge decks was discussed. The traditional and empirical methods of bridge deck design were investigated for shrinkage reinforcement. Finally, recommendations were suggested to the reinforcement requirements based on the findings of this study.

Study of Internal Strains Developed in Concrete Decks at Early Ages in Steel Continuous Bridges

2019 Concrete
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Release : 2019
Genre : Concrete
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Book Synopsis Study of Internal Strains Developed in Concrete Decks at Early Ages in Steel Continuous Bridges by : Fernando Rafael Benitez Ortiz

Download or read book Study of Internal Strains Developed in Concrete Decks at Early Ages in Steel Continuous Bridges written by Fernando Rafael Benitez Ortiz. This book was released on 2019. Available in PDF, EPUB and Kindle. Book excerpt: The Arkansas Department of Transportation (ARDOT) has identified bridge deck cracking shortly after concrete decks are placed and prior to applying traffic loads. Previous researchers have confirmed improper construction practices and design methods can lead to deck cracking. Currently, many contractors throughout Arkansas are using continuous deck pours. This construction approach may restrict the concrete slab from movement during early age shrinkage, causing tensile stresses to develop. The final stresses at the end of construction must be lower than the concrete tensile strength, if not cracking issues will develop. Eventually, these cracks may enlarge due to service load stresses and environmental damage. A nation-wide Department of Transportation (US DOTs) survey was performed to investigate the early age cracking extensiveness level in other state's bridges and what corrections, if any, they have made to address this problem. Additionally, Arkansas bridges with early age cracking were visited to examine any trends and inform instrumentation for bridge testing. A bridge deck was instrumented with 32 vibrating wire strain gauges prior to concrete placement to investigate strain and temperature changes in the first 14 days. Eurocode and ACI approximations for concrete mechanical properties were compared to field measured data for improving the understanding of an early age concrete deck behavior in a continuous steel bridge. Stress analysis study through the span length of bridge 030428 detected some locations prone to concrete cracking due to the variability of concrete mechanical properties and stress developed in the concrete deck. This thesis describes the results of this monitoring and anything that can be learned about formation of concrete stresses in continuous concrete bridge deck pours.

Extended Life Concrete Bridge Decks Utilizing Internal Curing to Reduce Cracking

2019 Bridges
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Release : 2019
Genre : Bridges
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Book Synopsis Extended Life Concrete Bridge Decks Utilizing Internal Curing to Reduce Cracking by : Xuhao Wang

Download or read book Extended Life Concrete Bridge Decks Utilizing Internal Curing to Reduce Cracking written by Xuhao Wang. This book was released on 2019. Available in PDF, EPUB and Kindle. Book excerpt: With the ongoing concern about premature cracking of concrete bridge decks that reduces the service life of bridges and results in increased maintenance and replacement costs, this work aimed at assessing the benefits of using lightweight fine aggregate (LWFA) in concrete mixtures to assist the Ohio Department of Transportation (ODOT) in preparing a specification to increase the probability of achieving crack-free, long-lasting bridge decks. A laboratory testing program led to a recommended mix design for implementation on a bridge construction project in Ohio. The design included the use of 50% slag cement and LWFA for internal curing. Construction of two bridge decks involved a control using a conventional mix design and the other containing the recommended mixture. The decks were instrumented and load tested shortly after construction and inspected one year after placement. No differences in structural performance were noted, but there were far fewer cracks in the test deck compared to the control. A life-cycle cost analysis was also conducted and shown that the premium for the recommended mixture would be recovered in reduced maintenance over the life of the bridge.

Comparison of Conventional and Internally Cured Concrete Bridge Decks in Utah: Mountain View Corridor Project

2015 Concrete
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Release : 2015
Genre : Concrete
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Book Synopsis Comparison of Conventional and Internally Cured Concrete Bridge Decks in Utah: Mountain View Corridor Project by : W. Spencer Guthrie

Download or read book Comparison of Conventional and Internally Cured Concrete Bridge Decks in Utah: Mountain View Corridor Project written by W. Spencer Guthrie. This book was released on 2015. Available in PDF, EPUB and Kindle. Book excerpt:

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