Zusammenfassung
Brückenbauwerke stellen einen wesentlichen Bestandteil der Infrastruktur in nahezu allen Ländern der Erde dar. Sie gewährleisten die Funktionsfähigkeit und damit die Aufrechterhaltung moderner menschlicher Gesellschaften, die durch hohe Informations-, Energie- und Stoffflüsse gekennzeichnet sind.
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Literatur
Abels & Annes PC (2017) Bridge collapse accidents. https://www.daveabels.com/chicago-construction-accident-lawyers/bridge-collapse/
Akesson B (2008) Understanding bridge collapses. CRC Press, London
Al-Wazeer AAR (2007) Risk-based bridge maintenance strategies. Dissertation, University of Maryland
ASCE (2013) 2013 Report card for America’s infrastructure: Bridges: Overview. American Society of Civil Engineers. http://www.infrastructurereportcard.org
Biezma MV, Schanack F (2007) Collapse of steel bridges. J Perform Constr Facil (ASCE) 21(5):398–405
Blockley DI (1980) The nature of structural design and safety. Wiley, Chichester
Borzi B, Ceresa P, Franchin P, Noto F, Calvi GM, Pinto PE (2015) Seismic vulnerability of the Italian roadway bridge stock. Earthq Spectra 31(4):2137–2161
Breysse D, Ndiaye A (2014) Failure case databases related to risk in civil engineering. Proceedings of the Institution of Civil Engineers - Forensic Engineering 167(1):27–37
Briaud JL, Gardoni P, Yao C (2012) Bridge scour risk. ICSE6 Conference Proceedings, Paris, 27–31 August 2012, S 1193–1210
Bridge Forum (2017) Bridge failure database. University of Cambridge. http://www.bridgeforum.org/dir/collapse/year/0000-3000.html
Brown CB (1979) A fuzzy safety measure. J Eng Mech Div ASCE 105:855–872
Brückenweb (2017) Brückenkatastrophen - Einstürze - Unfälle (Datenbank), F. Selke (Impressum). http://www.brueckenweb.de/2content/datenbank/katastrophen/3katastrophen.php
Caprani C (2018) Are Australian bridges safe, and can we do better? The Conversation, theconversation.com
Casas JR (2015) The bridges of the future or the future of bridges? Front in Built Environ: 1–3. https://doi.org/10.3389/fbuil.2015.00003
Chang S-P, Choo J F (2009) Values of bridge in the formation of cities. IABSE Workshop: Recent Major Bridges, Shanghai, China, 11–12 May 2009, S 25–46
Christian GA (2010) Bridge failures – Lessons learned, bridge engineering course. University at Buffalo, 29 March 2010. http://mceer.buffalo.edu/education/bridge_speaker_series/2009-2010/presentations/S.1%20Lessons%20learned%20from%20Bridge%20Failures_FINAL.pdf
Cook W (2014) Bridge failure rates, consequences and predictive trends. Diss, Utah State University Logan
Das PC (1997) Safety of bridges. Thomas Telford, London
Deng L, Wang W, Yu Y (2016) State-of-the-art review on the causes and mechanisms of bridge collapse. J Perform Constr Facil 30(2):13
Der Prüfingenieur (2004) Nachrichten, S 7, April 2004
Diaz EEM, Moreno FN, Mohammadi J (2009) Investigation of common cause of bridge collapse in Colombia. Pract Period Struct Des Constr 14(4):194
Diehm J, Hall K (2013) Bridge collapses and structurally deficient bridges across the country. Huffington Post 24(5):2013
DIN 1076 (1999) Ingenieurbauwerke im Zuge von Strassen und Brücken, November 1999
Dubbudu R (2016) An average of 7 structures collapsed per day in the last 5 years. Factly: Making Public Data Meaningful, 1 April 2016. https://factly.in/more-than-13000-lost-lives-in-structure-collapses-in-the-last-5-years/
Dunker KF (1993) Why America’s bridges are crumbling. Sci Am 266(3):18–25
Enright B, Caprani CC, O’Brien EJ (2011) Modelling of highway bridge traffic loading: some recent advances. In: 11th international conference on applications of statistics and probability in civil engineering (ICASP11), Zurich, 8 Seiten, on CD
Fard B (2012) A comprehensive study on 100 bridge failures and their reduction strategies. Civil Engineering, University of Buffalo
FHWA (1996) Recording and coding guide for the structure inventory and appraisal of the nation’s bridges. Report FHWA-PD-96-001 Federal Highway Administration, US Department of Transportation, Washington DC
FHWA (2015) Engineering for structural stability in bridge construction. US DoT, Federal Highway Administration, National Highway Institute, NHI Course Number 130102, FHWA-HI-15-044, April 2015
FHWA (2017) National Bridge Inventory (NBI). https://www.fhwa.dot.gov/bridge/nbi.cfm
Fu Z, Ji B, Cheng M, Maeno H (2012) Statistical analysis of the causes of bridge collapse in China. Sixth Congress on Forensic Engineering
Fu**o Y (2018) Bridge maintenance, renovation and managment – Research and Development of govermental program in Japan. In: Powers N, Frangopol DM, Al-Mahaidi R, Caprani C (Eds), Maintenance, safety, risk, manamgent and life-cycle performance of bridges, Proceedings of the Ninth international conference on bridge maintenance, safety and management (IABMAS 2018), Melbourne, Australien, CRC Press, Taylor and Francis, London, S 2–14
Gee KW (2003) Action: compliance with the national bridge inspection standards – plan of action for scour critical bridges. FHWA Bridge Technology Memorandum
Gordenker A (2011) Bridges with names. Japan Times, 17. Mai 2011. www.japantimes.co.jp
Hannawald F, Reintjes KH, Graße W (2003) Messwertgestützte Beurteilung des Gebrauchsverhaltens einer Stahlverbund-Autobahnbrücke. Stahlbau 72(7):507–516
Harik IE, Shaaban AM, Gesund H, Valli YS, Wang ST (1990) United States bridge failures, 1951–1988. J Perform Constr Facil (ASCE) 4(4):272–277
Heinrich B (1983) Brücken – Vom Balken zum Bogen. Rowohlt Taschenbuch, Hamburg
Hersi M (2009) Analysis of bridge failure in United States (2000–2008). Master of Science Thesis, Ohio State University
Hingorani R (2021) Persönliche Kommunikation
Imam BM, Chryssanthopoulos MK (2012) Causes and consequences of metallic bridge failures. Struct Eng Int 22(1):93–98
Imhof D (2004) Risk assessment of existing bridge structures. University of Cambridge, Dissertation, Kings College, December 2004
Kroker H (2013) Deutschlands Brücken vor dem Kollapse. Die Welt, 3. Juni 2013. https://www.welt.de/116759711
Lee FZ, Lai JS, Lin YB, Liu X, Chang KC, Lin CF, Chang CC (2019) Monitoring and simulation of bridge pier scour depth, scour and erosion, Keh-Chia, Taylor & Francis, S 633
Lee GC, Mohan SB, Huang C, Fard BN (2013a) A study of U.S. bridge failures (1980–2012). Technical Report MCEER-13-0008, University at Buffalo, State University of New York, 15 June 2013
Lee GC, Qi J, Huang C (2013b) Development of a database framework for modelling damaged bridges. Technical Report MCEER-13-0009, University at Buffalo, State University of New York, 16 June 2013
Macbeth A (2018) Thousands of Italian bridges will be in crisis in the next 20 years. https://www.thelocal.it/20180828/thousands-of-italian-bridges-will-be-in-crisis-in-the-next-20-years
McLinn J (2010) Major bridge collapses in the US and around the world, IEEE Reli-ability Society 2009 Annual Technology Report. IEEE Transactions on Reliability 59(3):5
Melville BW, Sutherland AJ (1988) Design method for local scour at bridge piers. J Hydraul Eng 114(10):1210–1226
Menzies JB (1996) Bridge failures, hazards and societal risk. International Symposium on the Safety of Bridges, London, July 1996
MLIT (2005) The maintenance of national road network in Japan. Ministry of Land, Infrastructure, Transport and Tourism. http://www.mlit.go.jp/road/road_e/03key_challenges/1-2-2.pdf
Montalvo C, Cook W (2017) Validating common collapse conjectures in the U.S. bridges. In: 11th International bridge and structure management conference, Mesa, Arizona, 25–27 April 2017, S 13,
Naumann J (2002) Aktuelle Schwerpunkte im Brückenbau. 12. Dresdner Brückenbausymposium, Lehrstuhl für Massivbau und Freunde des Bauingenieurwesens e.V., S 43–5
Oliveira CBL, Greco M, Bittencourt TN (2019) Analysis of the Brazilian federal bridge inventory. IBRACON Structures and Materials Journal 12(1):1–13
Pircher M, Kammersberger A, Lechner B, Mariani O (2009) Schädigung einer schlaff bewehrten Betonbrücke durch Verkehrsbelastung. Beton- und Stahlbetonbau 104(3):154–163
Proske D (2017a) Vergleich der Versagenswahrscheinlichkeit und der Versagenshäufigkeit von Brücken. Bautechnik 94(7):419–429
Proske D (2017b) Comparison of bridge collapse frequencies with failure probabilities. In: Voigt M, Proske, D, Graf W, Beer M, Häussler-Combe U, Voigt P (Hrsg) Proceedings of the 15th International Probabilistic Workshop, TUDpress, Dresden, S 15–23
Proske D (2018a) Versagenshäufigkeit und Versagenswahrscheinlichkeit von Brücken. Tagungsband des 28. Dresdner Brückenbausymposium, Technische Universität Dresden, Dresden, S 189–199
Proske D (2018b) Bridge collapse frequencies versus failure probabilities. Springer, Cham
Proske D (2019a) Comparison of the collapse frequency and the probability of failure of bridges. Proceedings of the Institution of Civil Engineers - Bridge Engineering 172(1):27–40
Proske D (2019b) Comparison of frequencies and probabilities of failure in engineering sciences. Proceedings of the 29th European Safety and Reliability Conference, Edited by Michael Beer and Enrico Zio, Research Publishing, Singapore, S 2040–2044. doi: https://doi.org/10.3850/978-981-11-2724-30816-cd
Proske D (2019c) Der 30-Jahre-Zyklus der Brückeneinstürze und der technologische und demographische Wandel im Bauingenieurwesen. Bauingenieur 94(9):343–352
Proske D (2020a) Erweiterter Vergleich der Versagenswahrscheinlichkeit und -häufigkeit von Kernkraftwerken, Brücken, Dämmen und Tunneln. Bauingenieur 95(9):308–317
Proske D (2020b) Zur Berücksichtigung hypothetischer Opferzahlen in Lebenszykluskostenberechnungen von Brücken. Beton- und Stahlbetonbau 115(6):459–546
Proske D (2020c) Fatalities due to bridge collapse. Proceedings of the Institution of Civil Engineers - Bridge Engineering 173(4):260–267
Proske D (2020d) Die globale Gesundheitsbelastung durch Bauwerksversagen. Bautechnik 97(4):233–242
Proske D, van Gelder P (2009) Safety of historical stone arch bridges. Springer, Heidelberg
Schaap HS, Caner A (2021) Bridge collapses in Turkey: Causes and remedies. Struct Infrastruct Eng. https://doi.org/10.1080/15732479.2020.1867198
Scheer J (2000) Versagen von Bauwerken: Band 1: Brücken. Verlag Ernst und Sohn, Berlin
Sharma S, Mohan S (2011) Status of bridge failures in the United States (1800–2009). TRB 90th Annual Meeting: Transportation, Liveability, and Economic Development in a Changing World, Washington, DC
Sharma S (2010) A comprehensive study on bridge failures in the United States and their comparison with bridge failure in other countries. MSc Project, Department of Civil, Structural and Environmental Engineering, University of Buffalo, Buffalo
Smith DW (1976) Bridge failures. Proc Inst Civ Eng 60(3):367–382
Spector A, Gifford D (1986) A computer science perspective of bridge design. Commun ACM 29(4):268–283
Statista (2020a) Number of road bridges in China from 2010 to 2019. https://www.statista.com/statistics/258358/number-of-road-bridges-in-china/
Statista (2020b) Number of road bridges in South Korea from 2009 to 2019. https://www.statista.com/statistics/1052665/south-korea-number-of-road-bridges/
Statistics Canada (2018) Canada’s core public infrastructure survey: Roads, bridges and tunnels, 2016, 24. August 2018
Syrkov A (2020) Persönliche Kommunikation
Taricska MR (2014) An Analysis of Recent Bridge failures in the United States (2000-2012). MSc. Thesis, The Ohio State University
Tweed MH (1969) A summary and analysis of bridge failures. Master Thesis, Iowa State University, Ames
UIC (2005) International union of railways: Improving assessment, optimization of maintenance and development of database for masonry arch bridges. http://orisoft.pmmf.hu/masonry/
Vogel T, Zwicky D, Joray D, Diggelmann M, Hoj NP (2009) Tragsicherheit der bestehenden Kunstbauten, Sicherheit des Verkehrssystems Strasse und dessen Kunstbauten. Bundesamt für Strassen, Bern
Wang Z, Lee GC (2009) A comparative study of bridge damage due to the Wenchuan, Northridge, Loma Prieta and San Fernando earthquakes. Earthq Eng Eng Vib 8(2):251–261
Wardhana K & Hadipriono FC (2003) Analysis of recent bridge failures in the united states. J Perform Constr Facil, ASCE, August 2003, S 144–150
Weber WK (1999) Die gewölbte Eisenbahnbrücke mit einer Öffnung. Dissertation, Technische Universität München, München
Wikipedia (2017) List of bridge failures. https://en.wikipedia.org/wiki/List_of_bridge_failures
Wolhuter KM (2015) Geometric design of roads handbook. CRP Press, Taylor & Francis Group, Boca Raton
Woodward RJ, Kschner R, Cremona C, Cullington D (1999) Review of current procedures for assessing load carrying capacity – Status C, BRIME PL97-2220. January 1999
Xu FY, Zhang MJ, Wang L, Zhang JR (2016) Recent highway bridge collapses in China: Review and discussion. J Perform Constr Facil 30(5):8
Yan BF, Shao XD (2008) Application of China bridge management system in Qinyuan city. In: KOH & FRANGOPOL (Hrsg) Bridge maintenance, safety, management, health monitoring and informatics, Taylor & Francis Group, London, S 2675–2682
Zerna W (1983) Grundlage der gegenwärtigen Sicherheitspraxis in der Bautechnik. In: Hartwig S (Hrsg) Große technische Gefahrenpotentiale: Risikoanalysen und Sicherheitsfragen. Springer Verlag, Berlin - Heidelberg, S 99–109
Zhang XG, Liu G, Ma JH, Wu HB, Wu WM (2014) Design concept and approach on sustainable development of bridge engineering. In: Chen, Frangopol and Ruan (Hrsg) Bridge maintenance, safety, management and life extension, CRC Press, London, S 1831–1838
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Proske, D. (2021). Brücken. In: Einsturzhäufigkeit von Bauwerken. Springer Vieweg, Wiesbaden. https://doi.org/10.1007/978-3-658-35198-4_3
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