International Perspective on UHPC in Bridge Engineering
Publication: Journal of Bridge Engineering
Volume 25, Issue 11
Abstract
Ultrahigh-performance concrete (UHPC) offers significant potential to address a variety of needs in bridge design, construction, and performance enhancement. Bridge owners have shown willingness to embrace novel solutions that could address specific challenges related to the cost, speed of construction, durability, and service life of their projects. There are hundreds of bridges worldwide that, largely in the past decade, have utilized UHPC. These applications range from minor field-cast closures to precast segments for long-span bridges to kilometer-long bridge deck overlays on a signature structure. The objective of this paper is to promote the application of this class of cementitious material in bridge engineering by presenting the progress that has been made in different regions of the world in the past two decades. Today, UHPC is being widely used in Malaysia to design and construct many bridges of different types and spans as they build out their roadway network. In South Korea, the unique characteristics of UHPC are being utilized to advance the state-of-the-art in long-span bridges. The French were early adopters and pioneers in building a strong foundation for using UHPC in a variety of bridge applications. In Switzerland, UHPC is employed to address major bridge rehabilitation needs. The United States bridge sector has embraced UHPC for a variety of field-cast connections. Current research and development efforts are promoting the use of UHPC in major rehabilitation projects and construction of primary bridge components. The adoption of UHPC solutions into the bridge sector is progressing rapidly because of the unique opportunities provided by the strength and durability of the material. It is expected that additional innovations and refinements of solutions will occur as knowledge of the material proliferates.
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Acknowledgments
The drafting of this paper was led by Graybeal and Zaghi. The Swiss portion was authored by Brühwiler. The South Korean portion was authored by Kim. The French portion was authored by Toutlemonde. The Malaysian portion was authored by Voo. All authors acknowledge that, although serving as informal representatives of their respective countries, the knowledge that they have presented is indicative of broader advancements efforts in their local regions.
References
AFGC (Association Française de Génie Civil). 2002. Ultra high performance fibre-reinforced concrete: Interim recommendations. Bagneux: AFGC-Sétra.
AFNOR (Association Française de Normalisation). 2016a. Concrete—Ultra-high performance fibre-reinforced concrete—Specifications, performance, production and conformity. NF P18-470. La Plaine Saint-Denis, France: AFNOR.
AFNOR (Association Française de Normalisation). 2016b. National addition to eurocode 2–Design of concrete structures: Specific rules for ultra-high performance fibre-reinforced concretes (UHPFRC). NF P18-710. La Plaine Saint-Denis, France: AFNOR.
AFNOR (Association Française de Normalisation). 2018. Concrete—Execution of concrete structures – Specific rules for UHPFRC. NF P18-451. La Plaine Saint-Denis, France: AFNOR.
Aïtcin, P.-C., and P. Richard. 1996. “The pedestrian/bikeway bridge of Sherbrooke.” In Proc. 4th Int. Symp. on High-Strength/High-Performance Concrete, edited by F. de Larrard and R. Lacroix, 1399–1406. Paris, France: Presses de l'Ecole Nationale des Ponts et Chaussées.
Birelli, G. 2011. “UHPFRC development: Review of a determining application.” In Designing and building with UHPFRC, edited by F. Toutlemonde and J. Resplendino, 21–41. Chichester, UK: Wiley-ISTE.
Brugeaud, Y. 2013. “Express bridge deck and light duty bridge.” In Proc., RILEM-fib-AFGC Int. Symp. on Ultra-High Performance Fiber Reinforced Concrete, edited by F. Toutlemonde and J. Resplendino, 389–394. Bagneux, France: RILEM PRO 87.
Brühwiler, E. 2019. “UHPFRC technology to enhance the performance of existing concrete bridges.” Struct. Infrastruct. Eng. 16 (1): 94–105. https://doi.org/10.1080/15732479.2019.1605395.
Brühwiler, E., and E. Denarié. 2013. “Rehabilitation and strengthening of concrete structures using ultra-high performance fibre reinforced concrete.” Struct. Eng. Int. 23 (4): 450–457. https://doi.org/10.2749/101686613X13627347100437.
Brühwiler, E., M. Bastien-Masse, H. Mühlberg, B. Houriet, B. Fleury, S. Cuennet, P. Schär, F. Boudry, and M. Maurer. 2015. “Design of the strengthening of the Chillon viaducts deck slabs with reinforced UHPFRC.” In Proc., Int. Association for Bridge and Structural Engineering, Conf. Zurich, Switzerland: IABSE.
Buitelaar, P. 2017. “Ultra-high-performance concrete—More specialists than projects?” Concrete 51 (3): 43–46.
Chen, B., M. An, Q. Huang, H. Wu, W. Huang, and Q. Zhao. 2016. “Application of ultra-high performance concrete in bridge engineering in China.” In Proc., 1st Int. Interactive Symp. on UHPC, Ames, IA: Iowa State University.
Coufal, R., M. Kalny, and J. Vitek. 2016. “The first large application of UHPC in the Czech Republic.” In Proc., 1st Int. Interactive Symp. on UHPC, Ames, IA: Iowa State University.
Cousin, B., V. Buchin-Roulie, C. Vandevoorde, and N. Fabry. 2017. “Hammersmith flyover: A complete innovative renovation.” In Proc., Int. Conf. on Ultra-High Performance Fiber Reinforced Concrete, edited by F. Toutlemonde and J. Resplendino, 787–796. Paris: RILEM PRO 106.
CSA (Canadian Standards Association). 2019a. Concrete materials and methods of construction. CAN/CSA A23.1:19. Toronto: CSA Group.
CSA (Canadian Standards Association). 2019b. Canadian highway bridge design code. CAN/CSA S6:19. Toronto: CSA Group.
Delauzun, O., D. Rogat, L. Boutillon, L. Linger, and C. Clergue. 2011. “Construction of the PS34 UHPFRC bridge.” In Designing and building with UHPFRC, edited by F. Toutlemonde and J. Resplendino, 137–147. Chichester, UK: Wiley-ISTE.
El-Helou, R., and B. Graybeal. 2019. “The ultra girder: A design concept for a 300-foot single span prestressed ultra-high performance concrete bridge girder.” In Proc., 2nd Int. Interactive Symp. on Ultra-High Performance Concrete, Farmington Hills, MI: American Concrete Institute.
Fehling, E., K. Bunje, and M. Schmidt. 2011. “Gärtnerplatz—Bridge over River Fulda in Kassel—Multispan hybrid UHPC-steel bridge.” In Designing and building with UHPFRC, edited by F. Toutlemonde and J. Resplendino, 125–136. Chichester, UK: Wiley-ISTE.
FHWA (Federal Highway Administration). 2019. Design and construction of field-cast UHPC connections. FHWA-HRT-19-011. Washington, DC: FHWA.
Graybeal, B. 2006a. Material property characterization of ultra-high performance concrete. FHWA-HRT-06-103. Washington, DC: FHWA.
Graybeal, B. 2006b. Structural behavior of ultra-high performance concrete prestressed I-girders. FHWA-HRT-06-115. Washington, DC: FHWA.
Graybeal, B. 2009. Structural behavior of a 2nd generation ultra-high performance concrete Pi-girder. PB2009-115496. Washington, DC: National Technical Information Service.
Graybeal, B. 2014. “Ultra-high-performance concrete connections for precast concrete bridge decks.” PCI J. 59 (4): 48–62. https://doi.org/10.15554/pcij.09012014.48.62.
Graybeal, B. 2017. “Emerging UHPC-based bridge construction and preservation solutions.” In Proc., Int. Conf. on Ultra-High Performance Fiber Reinforced Concrete, edited by F. Toutlemonde and J. Resplendino, 965–974. Paris: RILEM PRO 106.
Graybeal, B., and F. Baby. 2013. “Development of direct tension test method for ultra-high-performance fiber-reinforced concrete.” ACI Mater. J. 110 (2): 177–186. https://doi.org/10.14359/51685532.
Graybeal, B., and R. El-Helou. 2019. “Development of an AASHTO guide specification for ultra-high performance concrete.” In Proc., 2nd Int. Interactive Symp. on Ultra-High Performance Concrete, Farmington Hills, MI: American Concrete Institute.
Haber, Z., and B. Graybeal. 2018a. “Lap-spliced rebar connections with UHPC closures.” J. Bridge Eng. 23 (6), 04018028. https://doi.org/10.1061/(ASCE)BE.1943-5592.0001239.
Haber, Z., J. Muñoz, I. De la Varga, and B. Graybeal. 2018b. “Bond characterization of UHPC overlays for concrete bridge decks: Laboratory and field testing.” Constr. Build. Mater. 190: 1056–1068. https://doi.org/10.1016/j.conbuildmat.2018.09.167.
Hain, A., A. E. Zaghi, T. Fields, R. Barakat, A. Cardinali, M. Culmo, and T. Lopata. 2019. “Implementation of UHPC for the repair of a steel bridge with corrosion damage in Connecticut, USA.” In Proc., 2nd Int. Interactive Symp. on Ultra-High Performance Concrete, Farmington Hills, MI: American Concrete Institute.
Hajar, Z., M. Novarin, C. Servant, G. Généreux, D. Przybyla, and D. Bitar. 2013. “Innovative solution for strengthening orthotropic decks using UHPFRC: The Illzach Bridge.” In Proc., RILEM-fib-AFGC Int. Symp. on Ultra-High Performance Fiber Reinforced Concrete, edited by F. Toutlemonde and J. Resplendino, 117–126. Bagneux, France: RILEM PRO 87.
Hajar, Z., M. Novarin, A. Simon, T. Thibaux, S. Chanut, and R.-G. Salé. 2011. “ITE® beams, a cost-effective enduring alternative to filler-beam decks.” In Designing and building with UHPFRC, edited by F. Toutlemonde and J. Resplendino, 235–248. Chichester, UK: Wiley-ISTE.
Hajiesmaeili, A., and E. Denarié. 2018. “Next generation UHPFRC for sustainable structural applications.” In Proc., DSCS 2018: 2nd Int. Workshop on Durability and Sustainability of Concrete Structures. Moscow: Russian Academy of Sciences.
Hannawi, K., H. Bian, W. Prince-Agbodjan, and B. Raghavan. 2016. “Effect of different types of fibers on the microstructure and the mechanical behavior of ultra-high performance fiber-reinforced concretes.” Composites, Part B 86: 214–220. https://doi.org/10.1016/j.compositesb.2015.09.059.
Huynh, A., B. Petit, F. Téply, and C. Larive. 2017. “Innovative rehabilitation technology for corrugated metal pipe culverts using wet-mix sprayed UHPFRC.” In Proc., Int. Conf. on Ultra-High Performance Fiber Reinforced Concrete, edited by F. Toutlemonde and J. Resplendino, 717–723. Paris: RILEM PRO 106.
Jaffrelo, S. 2017. “New UHPFRC deck slab for the Grand Pont in Thouaré-sur-Loire (France): How to extend the life of a 19th century metallic structure bridge?” In Proc., Int. Conf. on Ultra-High Performance Fiber Reinforced Concrete, edited by F. Toutlemonde and J. Resplendino, 807–814. Paris: RILEM PRO 106.
JSCE (Japan Society of Civil Engineers). 2006. Recommendations for design and construction of ultra high strength concrete structures – Draft. Guidelines for Concrete No. 9. Tokyo: JSCE. ISBN: 4-8106-0557-4.
KCI (Korea Concrete Institute). 2012. Concrete design code. Seoul: KCI.
KCI (Korea Concrete Institute). 2019. Structural design guideline of fiber-reinforced SUPER concrete. Seoul: KCI.
KICT (Korea Institute of Civil Engineering & Building Technology). 2019. Final report on development of fabrication technology and material model: Instructions for 80 MPa to 180 MPa-class SUPER concrete. Seoul: KICT.
Kolisko, J., D. Citek, P. Tej, and M. Rdval. 2017. “Production of footbridge with double curvature made of UHPC.” In IOP Conference Series: Materials Science and Engineering, Vol. 246 of Proc., Fibre Concrete 2017, Wroclaw, Poland: Institute of Physics.
Lopez, J., A. Coll, H. Serna, and F. Galàn. 2016. “The UHPFRC pedestrian bridge above the V-21 highway in Puzol, Valencia: Design, construction and cost.” In Proc., 4th Int. Symp. on Ultra-High Performance Concrete and High Performance Materials, Kassel, Germany: Kassel University Press.
Lowke, D., T. Stengel, P. Schießl, and C. Gehlen. 2012. “Control of rheology, strength and fibre bond of UHPC with additions-effect of packing density and addition type.” In Proc., 3rd Int. Symp. on UHPC and Nanotechnology for High Performance Construction Materials, 215–224. Kassel, Germany: Kassel University Press.
Marchand, P., F. Baby, A. Khadour, P. Rivillon, J.-C. Renaud, L. Baron, G. Généreux, J.-P. Deveaud, A. Simon, and F. Toutlemonde. 2019. “Response of UHPFRC columns submitted to combined axial and alternate flexural loads.” J. Struct. Eng. 145 (1): 04018225. https://doi.org/10.1061/(ASCE)ST.1943-541X.0002209.
Mazzacane, P., R. Ricciotti, and F. Téply. 2011. “The Passerelle des Anges Footbridge.” In Designing and building with UHPFRC, edited by F. Toutlemonde and J. Resplendino, 111–124. Chichester, UK: Wiley-ISTE.
Mazzacane, P., R. Ricciotti, F. Téply, R. Tollini, and D. Corvez. 2013. “MuCEM: The builder's perspective.” In Proc., RILEM-fib-AFGC Int. Symp. on Ultra-High Performance Fiber Reinforced Concrete, edited by F. Toutlemonde and J. Resplendino, 3–16. Bagneux, France: RILEM PRO 87.
McMullen, K., and A. Zaghi. 2020. “Experimental evaluation of full-scale corroded steel plate girders repaired with UHPC.” J. Bridge Eng. 25 (4). https://doi.org/10.1061/(ASCE)BE.1943-5592.0001535.
Mimram, M., M. Bonera, G. Barrau, and P. Mazzacane. 2017. “Roofing of Montpellier—South of France TGV Station.” In Proc., Int. Conf. on Ultra-High Performance Fiber Reinforced Concrete, edited by F. Toutlemonde and J. Resplendino, 837–856. Paris: RILEM PRO 106.
Montens, S., J. Olive, P.-E. Gautier, and S. Bernardi. 2017. “An innovative approach of using UHPC for metro viaducts.” In Proc., Int. Conf. on Ultra-High Performance Fiber Reinforced Concrete, edited by F. Toutlemonde and J. Resplendino, 699–706. Paris: RILEM PRO 106.
Nalta, R. V., and M. D. Graaff. 2017. “The Catharina bridge in Leiden.” In High tech concrete: Where technology and engineering meet, edited by D. Hordijk and M. Luković, 2660–2669. Switzerland: Springer.
Núñez, A., J. Patiño, S. Arango, and W. Echeverri. 2019. “Review on first structural applications of UHPC in Columbia.” In Proc., 2nd Int. Interactive Symp. on Ultra-High Performance Concrete, Farmington Hills, MI: American Concrete Institute.
Olipitz, M. 2015. “Paulifurtbrücke—Entwurf, Planung und Ausführung einer UHPC—Schalenbrücke in Kärnten.” [In German.] Beton und Stahlbetonbau 110 (5): 365–374. https://doi.org/10.1002/best.201500013.
Pastor, F., Z. Hajar, and P. Dal Palu. 2017. “UHPFRC footbridge in Le Cannet des Maures.” In Proc., Int. Conf. on Ultra-High Performance Fiber Reinforced Concrete, edited by F. Toutlemonde and J. Resplendino, 737–744. Paris: RILEM PRO 106.
Pelke, E., A. Jaborek, D. Berger, and E. Brühwiler. 2018. “Overpass bridge of the L3378 road near Fulda-Lehnerz—First application of UHPFRC in road bridge construction in Germany.” [In German.] BUST—Beton- und Stahlbetonbau 113 (11): 831–841. https://doi.org/10.1002/best.201800050.
Pimienta, P., J.-C. Mindeguia, A. Simon, and M. Behloul. 2011. “Behavior of UHPFRC at high temperatures.” In Designing and building with UHPFRC, edited by F. Toutlemonde and J. Resplendino, 579–599. Chichester, UK: Wiley-ISTE.
Qi, J., Z. Cheng, J. Wang, and Y. Tang. 2020. “Flexural behavior of steel-UHPFRC composite beams under negative moment.” Structures 24: 640–649. https://doi.org/10.1016/j.istruc.2020.01.022.
Qiu, M., X. Shao, K. Wille, B. Yan, and J. Wu. 2020. “Experimental investigation on flexural behavior of reinforced ultra high performance concrete low-profile T-beams.” Int. J. Concr. Struct. Mater. 14: 5. https://doi.org/10.1186/s40069-019-0380-x.
Reichel, M., B. Freytag, and L. Sparowitz. 2011. “Road bridge “wild”: Application of the UHPFRC precast segmental construction method for an arch structure.” In Designing and building with UHPFRC, edited by F. Toutlemonde and J. Resplendino, 209–220. Chichester, UK: Wiley-ISTE.
Ricciotti, R., F. Pastor, Z. Hajar, and S. Bernardi. 2017. “La République Bridge in Montpellier.” In Proc., Int. Conf. on Ultra-High Performance Fiber Reinforced Concrete, edited by F. Toutlemonde and J. Resplendino, 727–736. Paris: RILEM PRO 106.
Richard, P., and M. Cheyrezy. 1994. “Reactive powder concretes with high ductility and 200–800 MPa compressive strength.” In Concrete Technology: Past, Present and Future, Proceedings of the V. Mohan Malhotra Symposium, edited by P. K. Mehta, ACI SP144-24, 507–518. San Francisco: ACI Spring Convention.
Saito, K., A. Tabata, Y. Soga, M. Fujishiro, and S. Muragishi. 2019. “Design of waffle-shaped UHPFRC deck slab for highway bridge.” In Concrete: Innovations in Materials, Design and Structures, edited by Wit Derkowski et al., 197–203. Laussane, Switzerland: Fédération Internationale du Béton.
Scarlata, J. 2019. “Design and construction of UHPC link slabs.” In Proc., 2nd Int. Interactive Symp. on Ultra-High Performance Concrete, Farmington Hills, Michigan: American Concrete Institute.
Schmidt, M., T. Leutbecher, S. Piotrowski, and U. Wiens. 2017. “The German guideline for ultra-high performance concrete.” In Proc., Int. Conf. on Ultra-High Performance Fiber Reinforced Concrete, edited by F. Toutlemonde and J. Resplendino, 545–554. Paris: RILEM PRO 106.
Schramm, N., and O. Fischer. 2018. “Precast options for PC bridge construction using ultra-high performance fibre-reinforced concrete (UHPFRC)-laboratory tests and railway bridge pilot application.” In Proc., 12th Japanese German Bridge Symp, 73–74. Munich, Germany: Technical Univ. Munich.
Shao, X., L. Deng, and J. Cao. 2019. “Innovative steel-UHPC composite bridge girders for long-span bridges.” Front. Struct. Civil Eng. 13 (4): 981–989. https://doi.org/10.1007/s11709-019-0531-9.
SIA (Swiss Society of Architects and Engineers). 2016. UHPFRC—Materials, design and construction. Technical Leaflet SIA 2052. Zurich, Switzerland: SIA.
Sorelli, L., F. Toutlemonde, F.-J. Ulm, V. Perry, D. Corvez, and A. Sheikh. 2012. “Analysis of early-age cracking for UHPFRC elements (cast-in-place or prefabricated) based on experience of Glenmore/“Passerelle des Anges” Footbridges.” In Proc., RILEM-JCI Int. Workshop on Crack Control of Mass Concrete and Related Issues Concerning Early-Age of Concrete Structures – CONCRACK 3, edited by F. Toutlemonde and J.-M. Torrenti, 211–222. Bagneux, France: RILEM PRO 85.
Tanaka, Y., K. Maekawa, Y. Kameyama, A. Ohtake, H. Musha, and N. Watanabe. 2011. “Innovation and application of UFC bridges in Japan.” In Designing and building with UHPFRC, edited by F. Toutlemonde and J. Resplendino, 149–187. Chichester, UK: Wiley-ISTE.
Tavakoli, F., S. Bouteille, and F. Toutlemonde. 2011. “UHPFRC waffle deck concept for a bridge at Livron-Loriol.” In Designing and building with UHPFRC, edited by F. Toutlemonde and J. Resplendino, 249–262. Chichester, UK: Wiley-ISTE.
Thibaux, T. 2011. “Using UHPFRC for structural reinforcement of buildings and civil works.” In Designing and building with UHPFRC, edited by F. Toutlemonde and J. Resplendino, 553–563. Chichester, UK: Wiley-ISTE.
Toutlemonde, F., V. Bouteiller, G. Platret, M. Carcasses, and M. Lion. 2010. “Field demonstration of UHPFRC durability: Girders shown to perform well in a cooling tower.” In Concrete Int., 39–45. Farmington Hills, MI: American Concrete Institute.
Toutlemonde, F., P. Marchand, F. Gomes, and L. Dieng. 2013a. “Using UHPFRC as a topping layer for orthotropic bridge decks: Prototype validation.” In Proc., RILEM-fib-AFGC Int. Symp. on Ultra-High Performance Fiber Reinforced Concrete, edited by F. Toutlemonde and J. Resplendino, 107–116. Bagneux, France: RILEM PRO 87.
Toutlemonde, F., P. Roenelle, Z. Hajar, A. Simon, R. Lapeyrère, R.-P. Martin, and L. Baron. 2013b. “Long-term material performance checked on World's Oldest UHPFRC Road Bridges at Bourg-lès-Valence.” In Proc., RILEM-fib-AFGC Int. Symp. on Ultra-High Performance Fiber Reinforced Concrete, edited by F. Toutlemonde and J. Resplendino, 265–274. Bagneux, France: RILEM PRO 87.
Zhu, Z., T. Yuan, Z. Xiang, Y. Huang, Y. E. Zhou, and X. Shao. 2018. “Behavior and fatigue performance of details in an orthotropic steel bridge with UHPC-deck plate composite system under in-service traffic flows.” J. Bridge Eng. 23 (3): 04017142 https://doi.org/10.1061/(ASCE)BE.1943-5592.0001167.
Zmetra, K., K. McMullen, A. Zaghi, and K. Wille. 2017. “Experimental study of UHPC repair for corrosion damaged steel girder ends.” J. Bridge Eng. 22 (8): 04017037. https://doi.org/10.1061/(ASCE)BE.1943-5592.0001067.
Zohrevand, P., and A. Mirmiran. 2011. “Behavior of ultrahigh-performance concrete confined by fiber-reinforced polymers.” J. Mater. Civ. Eng. 23 (12): 1727–1734. https://doi.org/10.1061/(ASCE)MT.1943-5533.0000324.
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Received: Dec 20, 2019
Accepted: Jun 9, 2020
Published online: Sep 3, 2020
Published in print: Nov 1, 2020
Discussion open until: Jan 3, 2021
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