Effect of Stay-in-Place Metal Forms on Performance of Concrete Bridge Decks

Frost, Stephen Litster

22 June 2006

The objectives of this research were to investigate the effect of stay-in-place metal forms (SIPMFs) on the performance of concrete bridge decks in Utah. The research program included six bridge decks with SIPMFs and six decks without SIPMFs, which were all located within the Interstate 215 corridor in the vicinity of Salt Lake City, Utah, and therefore subject to similar traffic loading, climatic conditions, and maintenance treatments, including applications of deicing salts during winter months. All of the tested decks were constructed between 1984 and 1989 using epoxy-coated rebar. Several tests were performed at each of six locations on each deck, including visual inspection, chain dragging, hammer sounding, Schmidt hammer testing, half-cell potential testing, and chloride concentration testing. Because differences in deck age and average cover for the two deck types were found to be statistically significant, the collected data were subjected to analysis of covariance (ANOCOVA) testing, with age and cover as covariates. All calculated p-values were compared to the standard value of 0.05. The distress survey results indicate that the average crack width and crack density for decks without SIPMFs were greater by 41 and 25 percent, respectively, than the corresponding values for decks with SIPMFs and that decks without SIPMFs had more potholes than decks with SIPMFs. However, the delamination density for bridge decks with SIPMFs was 71 percent higher than that of decks without SIPMFs. The average Schmidt rebound number for decks with SIPMFs was higher than that for decks without SIPMFs by an equivalent of 1,400 psi. The half-cell potential for decks with SIPMFs was 0.123 lower than that of decks without SIPMFs, indicating that a more active state of corrosion exists on decks with SIPMFs. On average, the chloride concentration in the bridge decks with SIPMFs was 205 percent greater than the concentration in the decks without SIPMFs. Among all of the distress measurements evaluated in the ANOCOVA, crack width was the only parameter that was determined to be significantly different between the two types of decks at the time of testing. In addition, Schmidt rebound number, half-cell potential, and chloride concentration at 2-in. depth all yielded p-values less than 0.05, indicating that significant differences in these properties exist between decks with and without SIPMFs. Specifically, the decks with SIPMFs have a higher compressive strength, a more active state of corrosion, and a higher chloride concentration, which may all be attributable to elevated moisture contents in decks with SIPMFs arising from the reduction in deck surface area from which moisture may evaporate. These data indicate that decks with SIPMFs are clearly more susceptible to reinforcement corrosion compared to decks without SIPMFs and may therefore exhibit greater magnitudes of damage with time. Given these research findings, engineers should carefully compare the short-term advantages against the potential long-term disadvantages associated with the use of SIPMFs for concrete bridge deck construction. If SIPMFs are approved for use, engineers may consider applying surface treatments to the affected decks early in the deck life to minimize the ingress of chlorides into the concrete over time and therefore retard the onset of reinforcement corrosion.

concrete bridge decks

corrosion

chloride concentration

deck distress

half-cell potential

stay-in-place forms

Civil and Environmental Engineering

Condition Analysis of Concrete Bridge Decks in Utah

Tuttle, Robert S.

15 June 2005

Concrete bridge decks in Utah are experiencing observable deterioration due primarily to freeze-thaw cycles and the routine application of deicing salts during winter maintenance activities. Given the need for increasingly cost-effective strategies for bridge deck maintenance, rehabilitation, and replacement (MR&R), the Utah Department of Transportation (UDOT) initiated this research to ultimately develop a protocol offering guidance as to whether deteriorated bridge decks should be rehabilitated or replaced. While threshold values for various non-destructive condition assessment methods were proposed in earlier UDOT research, this work focused on implementing the recommended test criteria. Twelve bridges were identified by UDOT engineers for inclusion in the study, and data were collected from each deck to determine whether the bridge decks warranted rehabilitation or replacement based on the proposed threshold values. Several evaluation techniques were employed to assess concrete bridge deck condition, including visual inspection, hammer sounding and chaining, dielectric measurements, ground-penetrating radar imaging, resistivity testing, half-cell potential testing, and chloride concentration testing. The condition assessment testing confirmed that chloride-induced corrosion of reinforcing steel is the primary mechanism of deck deterioration and that inadequate cover over the upper steel mat facilitated accelerated corrosion damage in many instances. The bridge deck condition analyses produced from the results of non-destructive testing were compared to the visual inspection ratings assigned to each deck by UDOT. Concrete bridge deck condition data should be collected regularly through inspection and monitoring programs to facilitate prioritization of MR&R strategies for individual bridges and to evaluate the impact of such strategies on the overall condition of the network. Performance indices based on selected condition assessment parameters should be developed for use in bridge management activities, and mathematical deterioration models should be calibrated in order to forecast both network-level and project-level conditions and predict funding requirements for various possible MR&R strategies. Further research, including statistical analyses of the data presented in this report, should be completed to develop relevant mathematical deterioration models for predicting the service lives of concrete bridge decks in Utah.

concrete bridge decks

visual inspection

sounding

resistivity

half-cell potential

ground-penetrating radar

chloride concentration

delaminations

Civil and Environmental Engineering

Effect of Initial Scarification and Overlay Treatment Timing on Chloride Concentrations in Concrete Bridge Decks

Nolan, Curtis Daniel

19 November 2008

Considering the pervasive presence of chlorides in concrete bridge decks, bridge engineers have a critical responsibility to perform proper and effective preventive maintenance and rehabilitation operations. Bridge engineers often perform scarification and overlay (SO) procedures on concrete bridge decks to minimize the corrosion of reinforcing steel due to chloride ingress. Given the need to develop guidelines for the initial timing of SO treatments, the specific objectives of this research were to collect information from several department of transportation (DOT) personnel about their SO procedures and, subsequently, to determine the recommended timing of initial SO procedures on concrete bridge decks for preventing the accumulation of corrosion-inducing levels of chlorides and extending deck service life. A questionnaire survey of state DOTs was conducted, and numerical modeling of SO treatments was performed. Simulations involving both decks with and without stay-in-place metal forms (SIPMFs) were performed. Numerical modeling was performed for each unique combination of variables through a service life of 50 years to determine the recommended initial timing of SO treatment in each case. The research results show that, overall, bridge decks without SIPMFs can endure longer delays in SO treatment timing than those with SIPMFs; in all cases, the absence of SIPMFs extended the amount of time before an SO treatment was needed. For decks with SIPMFs, the allowable delay in SO timing ranged from 2 to 6 years, while on decks without SIPMFs the allowable delay in SO timing ranged from 6 to 18 years. These delays are only 1 to 3 years longer than allowable delays associated with placement of surface treatments investigated in previous research. On average, the period of additional delay allowed before an SO treatment is required in decks with SIPMFs was 2 years with each additional 0.5 in. of OCD. In decks without SIPMFs, the presence of a greater OCD had a more pronounced effect on the latest recommended timing of treatment than in the decks with SIPMFs; an average additional delay period of 5 years was obtained with each additional 0.5 in. of OCD in decks without SIPMFs. Together with the findings of this research and the specific properties of the bridge deck under scrutiny, engineers can determine the appropriate timing of rehabilitation procedures to prevent or mitigate corrosion of the steel reinforcement of a bridge deck and ensure the usability of the deck for its intended service life. Although the conditions studied in this research were consistent with bridges located in the state of Utah, bridge decks that exist in similar environments and that are subjected to similar treatments of deicing salts as part of winter maintenance could exhibit similar properties to the decks simulated in this research. Engineers should carefully consider the results of this research and implement proper timing of SO treatments on their respective bridge decks to protect against and minimize the effects of corrosion due to chloride ingress.

concrete bridge decks

stay-in-place metal forms

scarification

overlay

surface treatment

rehabilitation

maintenance

treatment timing

bridge

deck

Civil and Environmental Engineering

Fatigue Behavior and Design of Heavy Duty Riveted Steel Gratings in Bridge Decks

Arthur, Godwin Addiah

January 2014

No description available.

Civil Engineering

Design

Engineering

Mechanical Engineering

Fatigue behavior

open grid decks

heavy duty riveted steel gratings

Grating Design

Pontes protendidas de Eucalipto citriodora / Pre-stressed timber bridge of Eucalyptus citriodora

Fonte, Thalita Fernandes da

20 February 2004

O conceito de pontes de madeira em tabuleiro laminado protendido surgiu na década de 70, no Canadá, como forma de reabilitação para tabuleiros laminados pregados. Diversas pesquisas foram desenvolvidas para verificar o desempenho estrutural e a durabilidade do sistema, e estes estudos comprovaram a eficácia do método. Devido ao enorme déficit de pequenas e médias pontes em todo o seu território, o Brasil tem buscado cada vez mais materiais e tecnologias alternativas economicamente competitivas para sua construção. Partindo de pesquisas desenvolvidas em outros países, desde 1993 começaram a ser desenvolvidas pesquisas nacionais para verificar a viabilidade em se utilizar madeiras brasileiras para construção de pontes, e a resposta, mais uma vez, foi positiva. Este trabalho tem como objetivos o estudo teórico e experimental das pontes de eucalipto protendidas transversalmente, através do projeto e construção da primeira ponte protendida de madeira da América do Sul. Por meio de provas de carga, foi avaliado o desempenho da ponte e a influência dos guarda-rodas e defensas na rigidez do tabuleiro. Os resultados mostram que o sistema protendido de eucalipto é uma ótima alternativa para o Brasil. / The concept of pre-stressed laminated timber bridges come from 70s, in Canada, as an alternative for the rehabilitation of damaged nailed laminated timber decks. Many researches were developed to verify the structural performance and the durability of the system, which corroborated the system\'s high efficience. Because of a great deficit in short-span and medium-span bridges in Brazil, the country has searched more and more competitive materials and technologies for their construction. Based on studies developed in other countries, since 1993 Brazil has developed studies to verify the viability of using brazilian woods to build such bridges, and the answer was positive. The present work aims to investigate the project and behavior of transversally pre-stressed timber bridges of eucalyptus, through the project and construction of the first stress-laminated timber bridge in South America. The bridge performance was evaluated as well as the influence of the guard-rail system in the deck stiffness, across proof loading. The results showed that this system is a good alternative for bridge construction in Brazil.

Bridges in decks

Bridges superestructures

Pontes de madeira

Pontes em placa

Pontes protendidas

Pre-stressed timber bridges

Protensão transversal

Superestruturas de pontes

Timber bridges

Transversal pre-stressed

Faraday: um sistema de suporte à manipulação de dados do Setor Elétrico Brasileiro

Brito, Filipe Marinho de

03 September 2013

Submitted by Jaqueline Silva (jtas29@gmail.com) on 2014-09-15T17:01:52Z No. of bitstreams: 2 Filipe Marinho de Brito.pdf: 17131597 bytes, checksum: 477190303473bc899a0003fa4fa5d986 (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) / Approved for entry into archive by Jaqueline Silva (jtas29@gmail.com) on 2014-09-15T17:49:43Z (GMT) No. of bitstreams: 2 Filipe Marinho de Brito.pdf: 17131597 bytes, checksum: 477190303473bc899a0003fa4fa5d986 (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) / Made available in DSpace on 2014-09-15T17:49:43Z (GMT). No. of bitstreams: 2 Filipe Marinho de Brito.pdf: 17131597 bytes, checksum: 477190303473bc899a0003fa4fa5d986 (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5) Previous issue date: 2013-09-03 / The operation planning process for hydrothermal generation systems is complex and depends on a large demand of organized data to find rational strategies of operation. These data although vast, often are shown in closed formats, tabular or graphical to satisfy a specific interest. What comes as closest as raw data, that allows the application of mathematical models to find rational strategies of operation are the decks. Although the wide range of papers developed to solve this planning, these are usually applied in a restricted sample of data because there is a great difficulty in reading the decks, for example the lack of standarts in the identification of a plant and the presence of binary files. In order to solve the problem in obtaining and handling data of plants, the Faraday System was developed, which promotes reading, organization, standardization, reporting and editing data of plants from decks and other information bases, as data flows reading from governmental institutions sites. The Faraday system is a web application platform, focusing on mobile computing, and can be accessed by tablets, smartphones or any devices that have access to browser and internet, introducing the science of energy research in mobile computing. / O processo de planejamento de operações de sistemas de geração hidrotérmicos é complexo e depende de uma grande demanda de dados organizados para encontrar estratégias racionais de operação. Estes dados apesar de vastos, costumam ser apresentados em formatos fechados, gráficos ou tabulados de modo a atender a um interesse específico. O que mais se aproxima de dados mais embrutecidos, que possibilitem a aplicação de modelos matemáticos para encontrar estratégias racionais de operação, são os decks. Apesar da ampla gama de trabalhos científicos desenvolvidos no sentido de solucionar o planejamento, estes costumam ser aplicados em uma amostra restrita de dados pois existe uma dificuldade grande na leitura dos decks, dentre eles pode-se citar a falta de padronização na identificação de uma usina e a presença de arquivos binários. Visando solucionar o problema na obtenção e manipulação de dados de usinas, foi desenvolvido o Sistema Faraday, que promove a leitura, organização, padronização, emissão de relatórios e edição de dados de usinas provinientes de decks e outras bases de informação, como dados de leitura de vazão provinientes de sites de instituições governamentais. O Sistema Faraday é uma aplicação web, multiplataforma, com foco na computação móvel, podendo ser acessada por tablets, smartphones ou quaisquer dispositivos que possuam navegador e acesso à internet; introduzindo a ciência da pesquisa energética na computação móvel.

Computação móvel

Sistemas de informação

Decks

Aplicativo web

Sistemas hidrotérmicos de geração

Planejamento da operação

Mobile computing

Information systems

Webapp

Hydrothermal systems generation

Operation planning

Pontes protendidas de Eucalipto citriodora / Pre-stressed timber bridge of Eucalyptus citriodora

Thalita Fernandes da Fonte

20 February 2004

O conceito de pontes de madeira em tabuleiro laminado protendido surgiu na década de 70, no Canadá, como forma de reabilitação para tabuleiros laminados pregados. Diversas pesquisas foram desenvolvidas para verificar o desempenho estrutural e a durabilidade do sistema, e estes estudos comprovaram a eficácia do método. Devido ao enorme déficit de pequenas e médias pontes em todo o seu território, o Brasil tem buscado cada vez mais materiais e tecnologias alternativas economicamente competitivas para sua construção. Partindo de pesquisas desenvolvidas em outros países, desde 1993 começaram a ser desenvolvidas pesquisas nacionais para verificar a viabilidade em se utilizar madeiras brasileiras para construção de pontes, e a resposta, mais uma vez, foi positiva. Este trabalho tem como objetivos o estudo teórico e experimental das pontes de eucalipto protendidas transversalmente, através do projeto e construção da primeira ponte protendida de madeira da América do Sul. Por meio de provas de carga, foi avaliado o desempenho da ponte e a influência dos guarda-rodas e defensas na rigidez do tabuleiro. Os resultados mostram que o sistema protendido de eucalipto é uma ótima alternativa para o Brasil. / The concept of pre-stressed laminated timber bridges come from 70s, in Canada, as an alternative for the rehabilitation of damaged nailed laminated timber decks. Many researches were developed to verify the structural performance and the durability of the system, which corroborated the system\'s high efficience. Because of a great deficit in short-span and medium-span bridges in Brazil, the country has searched more and more competitive materials and technologies for their construction. Based on studies developed in other countries, since 1993 Brazil has developed studies to verify the viability of using brazilian woods to build such bridges, and the answer was positive. The present work aims to investigate the project and behavior of transversally pre-stressed timber bridges of eucalyptus, through the project and construction of the first stress-laminated timber bridge in South America. The bridge performance was evaluated as well as the influence of the guard-rail system in the deck stiffness, across proof loading. The results showed that this system is a good alternative for bridge construction in Brazil.

Pontes de madeira

Pontes em placa

Pontes protendidas

Protensão transversal

Superestruturas de pontes

Bridges in decks

Bridges superestructures

Pre-stressed timber bridges

Timber bridges

Transversal pre-stressed

Innovative Modular High Performance Lightweight Decks for Accelerated Bridge Construction

Ghasemi, Sahar

13 November 2015

At an average age of 42 years, 10% of the nation’s over 607,000 bridges are posted for load restrictions, with an additional 15% considered structurally deficient or functionally obsolete. While there are major concerns with decks in 75% of structurally deficient bridges, often weight and geometry of the deck further limit the load rating and functionality of the bridge. Traditional deck systems and construction methods usually lead to prolonged periods of traffic delays, limiting options for transportation agencies to replace or widen a bridge, especially in urban areas. The purpose of this study was to develop a new generation of ultra-lightweight super shallow solid deck systems to replace open grid steel decks on movable bridges and as well serve as a viable alternative in bridge deck replacements across the country. The study has led to a lightweight low-profile asymmetric waffle deck made with advanced materials. The asymmetry comes from the arrangement of primary and secondary ribs, respectively perpendicular and parallel to the direction of traffic. The waffle deck is made with ultrahigh performance concrete (UHPC) reinforced with either high-strength steel (HSS) or carbon fiber reinforced polymer (CFRP) reinforcement. With this combination, the deck weight was limited to below 21 psf and its overall depth to only 4 inch, while still meeting the strength and ductility demands for 4 ft. typical stringer spacing. It was further envisioned that the ultra-high strength of UHPC is best matched with the high strength of HSS or CFRP reinforcement for an efficient system and the ductile behavior of UHPC can help mask the linear elastic response of CFRP reinforcement and result in an overall ductile system. The issues of consideration from the design and constructability perspectives have included strength and stiffness, bond and development length for the reinforcement, punching shear and panel action. A series of experiments were conducted to help address these issues. Additionally full-size panels were made for testing under heavy vehicle simulator (HVS) at the accelerated pavement testing (APT) facility in Gainesville. Detailed finite element analyses were also carried out to help guide the design of this new generation of bridge decks. The research has confirmed the superior performance of the new deck system and its feasibility.

Lightweight bridge decks

Ultra high performance concrete (UHPC)

Concrete

Carbon fiber reinforced polymers (CFRP)

Accelerated pavement testing

dynamic impact

High strength Steel (HSS)

Civil Engineering

Ocelová lávka pro pěší / Steel Footbridge

Honeš, Filip

January 2014

The main subject of master´s thesis is design of the construction of pedestrian steel bridge via the river Bečva in Přerov. It was made a three different types of the steel construction. The resulting draft is worked up in details. Span of the pedestrian bridge is 104 metres. The carrying construction is made from a two mutually-opening arches. Between the arches are hanged a semi through type decks.

Sensitivity of Half-Cell Potential Measurements to Properties of Concrete Bridge Decks

Pinkerton, Thad Marshall

05 December 2007

Half-cell potential testing has been recommended as a non-destructive method for assessing the corrosion potential of reinforcing steel in concrete bridge decks. The technique is particularly useful because it can be utilized to evaluate the probability of corrosion before damage is evident at the surface of a bridge deck. The specific objective of this research was to quantify the effects of age, chloride concentration, concrete cover thickness, spatial position, temperature, and presence or condition of epoxy coating on half-cell potential measurements of concrete bridge decks typical of those in Utah. The laboratory testing associated with this research followed a full-factorial experimental design. Nine rectangular concrete slab specimens were prepared, each containing three black reinforcing steel bars at three different concrete cover depths and four epoxy-coated bars each having different coating conditions. Three replicate slabs were created at each of three different chloride concentrations. Three repeated measurements were made at each of three locations along each of the seven bars in all nine of the slabs at three ages, with testing performed at three temperatures per age. In addition, compressive strengths of the concrete cylinders were measured at 7 and 28 days. Statistical analyses of the half-cell potentials were performed using analysis of variation and Tukey's method for multiple comparisons. Although American Society for Testing and Materials C 876 only specifies the measuring of half-cell potentials of uncoated reinforcing steel, credible half-cell potentials were also obtained for epoxy-coated rebar in this research. The results of the testing indicated that all of the factors except for cover thickness and spatial position have important impacts on half-cell potentials over the ranges of levels investigated in this research. Half-cell potential measurements became consistently less negative with increasing age and consistently more negative with increasing chloride concentrations and increasing temperature. With regard to the factor of treatment, the uncoated rebar had the most negative half-cell potential, followed by epoxy-coated rebar with rib scrapes, pliers strikes, end cuts, and full epoxy coatings, in that order. While these data indicate that a coating, even damaged, reduces the probability of corrosion when compared to uncoated rebar, the data also suggest that both the amount and distribution of the coating damage over the affected rebar influence corrosion. Given these research findings, bridge engineers and managers should have confidence in using half-cell potential testing for assessing the corrosion probability of reinforcing steel in concrete bridge decks. In decks with properties similar to those investigated in this research, variations in age, chloride concentration, temperature, and presence or condition of epoxy coating cause variation in half-cell potential readings consistent with the effects of these factors on corrosion. Therefore, the half-cell potential technique is recommended for assessing the probability of corrosion of reinforcing steel on bridge decks. Although the use of epoxy-coated reinforcement, even when damaged, reduces the probability of corrosion, care should still be taken to minimize any damage to the coating during shipping and field handling. Owners and contractors alike should establish appropriate inspection protocols and repair methods for epoxy-coated reinforcing steel used on bridge decks to ensure maximum service life.

age

black bar

chloride concentration

concrete

concrete bridge decks

concrete cover thickness

corrosion

epoxy-coated

half-cell

position

reinforcement

temperature

treatment

Civil and Environmental Engineering