Details
Title
FRP bridges in Poland: state of practiceJournal title
Archives of Civil EngineeringYearbook
2021Volume
vol. 67Issue
No 3Affiliation
Siwowski, Tomasz : Rzeszow University of Technology, Faculty of Civil & Environmental Engineering & Architecture, ul. Powstancow Warszawy 12, 35-859 Rzeszow, Poland ; Zobel, Henryk : Warsaw University of Technology, Faculty of Civil Engineering, Al. Armii Ludowej 16, 00-637 Warsaw, Poland ; Al-Khafaji, Thakaa : Warsaw University of Technology, Faculty of Civil Engineering, Al. Armii Ludowej 16, 00-637 Warsaw, Poland ; Karwowski, Wojciech : Warsaw University of Technology, Faculty of Civil Engineering, Al. Armii Ludowej 16, 00-637 Warsaw, PolandAuthors
Keywords
FRP ; composite polymer ; Polish bridges ; footbridgesDivisions of PAS
Nauki TechniczneCoverage
5-27Publisher
WARSAW UNIVERSITY OF TECHNOLOGY FACULTY OF CIVIL ENGINEERING and COMMITTEE FOR CIVIL ENGINEERING POLISH ACADEMY OF SCIENCESBibliography
[1] Chróścielewski J., Miśkiewicz M., Pyrzowski Ł, Wilde K., “Composite GFRP U-shaped footbridge”, Polish Maritime Research, Special Issue 2017 S1 (93) 2017 Vol. 24, pp. 25–31.
[2] Chróścielewski J., Miśkiewicz M., Pyrzowski Ł, Sobczyk B., Wilde K., “A novel sandwich footbridge – Practical application of laminated composites in bridge design and in situ measurements of static response”, Composites Part B Vol. 126, 2017, pp. 153–161.
[3] De Corte W., Jansseune A., Van Paepegem W., Peeters J., “Structural behaviour and robustness assessment of an InfraCore inside bridge deck specimen subjected to static and dynamic local loading”, Proceedings of the 21st International Conference on Composite Materials, Xi’an, 2017.
[4] Dong C.J., “Development of a process model for the vacuum assisted resin transfer molding simulation by the response surface method”, Composites: Part A Vol. 37, 2006, pp. 1316–1324.
[5] Grotte, B., Karwowski W., Mossakowski, P., Wróbel, M., Zobel, H., Żółtowski, P.: Steel, arch footbridge with composite polymer deck. „Wroclaw Bridge Days” - „Footbridges – Architecture, design, construction, research”. 29–30 November 2007, pp. 135–146.
[6] Grotte B., Karwowski W., Mossakowski P., Wróbel M., Zobel H., Żółtowski P., “Steel, arch footbridge with composite polymer deck with suspended composite polymer deck over S-11 highway nearby Kórnik”, Inżynieria i Budownictwo 1-2/2009, pp. 69–73.
[7] Karwowski W., “Material - structural conditions of joints in FRP bridges”, Ph. D. thesis, Warsaw University of Technology, Warsaw 2011.
[8] Madaj A., “Composite polymer bridges. New structural solutions of bridge girders”, Mosty 3/2015, pp. 58-60.
[9] Mossakowski P., Wróbel M., Zobel H., Żółtowski P. ,Pedestrian steel arch bridge with composite polymer deck. IV International Conference on “Current and future trends in bridge design, construction and maintenance”. Kuala Lumpur. Malaysia. October 2005.
[10] Mylavarapu R., Patnaik A., Puli K., R. K., “Basalt FRP: A new FRP material for infrastructure market?”, Proceedings of 4th International Conference on Advanced Composite Materials in Bridges and Structures, Canadian Society of Civil Engineers, Montreal, 2004.
[11] Patnaik A., “Applications of basalt fiber reinforced polymer (BFRP) reinforcement for transportation infrastructure”. Developing a Research Agenda for Transportation Infrastructure, TRB November, 2009.
[12] Pilarczyk K., “Application of composite panels InfraCore inside bridge structures”, Mosty 5/ 2019, pp. 74–75.
[13] Siwowski T., Kaleta D., Rajchel M., “Structural behaviour of an all-composite road bridge”, Composite Structures 192: pp. 555–567, 2018.
[14] Siwowski T., Rajchel M., Własak L., “Experimental study on static and dynamic performance of a novel GFRP bridge girder”, Composite Structures Vol. 259, 2021.
[15] Siwowski T., Rajchel M., Kulpa M, “Design and field evaluation of a hybrid FRP composite – lightweight concrete road bridge”, Composite Structures, Vol. 230, 2019.
[16] Siwowski T., Rajchel M., “Structural performance of a hybrid FRP composite – lightweight concrete bridge girder”, Composites Part B Vol. 174, 2019.
[17] Wąchalski K., “The design of renovation and widening of the J. Piłsudskiego bridge across Vistula river in Toruń, Poland”, Mosty 1/2021, pp. 50–56, (in Polish).
[18] Zobel H., Karwowski W, Wróbel M., „GFRP pedestrianbridge”, Inżynieria i Budownictwo nr 2/2003, pp. 107–108, (in Polish).
[19] Zobel H., “Composite Polymer Bridges”, Proceedings of 50-tie Conference „Scientific and Research Problems in Civil Engineering”, Krynica 2004, Vol I, pp. 381–410 (in Polish).
[20] Zobel H., Grotte B., Karwowski W., Wasiliew P., Wrobel M., Zoltowski P.: Pedestrian steel arch bridge with composite polymer deck and CFRP stays. IABSE Symposium “Metropolitan Habitats and Infrastructure”. Shanghai, China. September 2004. pp. 88–89 + CD.
[21] Zobel H., Karwowski W., Bridge composite polymer decks. Inżynieria i Budownictwo 11/2005, pp. 594–598. (in Polish).
[22] PN-EN 13706-3: 2004 Composite polymers. Technical Specifications for the profiles produced with pultrusion method. Part 3: Detailed requirements.
[23] http://www.mdacomposites.org/, 2005.
[24] Information Materials of the Mostostal Warszawa S.A. “Com-bridge – construction of the FRP structure”, 2016.
[25] Report of the Research Project “Material and structural conditions for joints in bridge structures made of FRP profiles realized in the Faculty of Civil Engineering at Warsaw University of Technology”. The project realized in 2005–2008 and financed by the Polish Ministry of Education and Science.
[26] https://fiberline.com/, 2021.
[27] https://www.kolbudy.pl, 2021.