References
- Bernard, M. A. (1913). Les chemins de fer Algeriens (p. 266) éditions A. Jourdan.
- Brühwiler, E. (2012). Fatigue safety examination of a 150-year old riveted railway bridge. In Proceedings of 3rd International Symposium on Life-cycle civil Engineering (Vol. 1, No. EPFL-CONF-181833). CRC Press/Balkema.
- Brühwiler, E., Bez, R., & Hirt, M. A. (1985). Résistance à la fatigue des constructions rivetées. Ingénieurs et architectes suisses, 111(ICOM-ARTICLE-1985-007), 3-6.
- Brühwiler, E., Bosshard, M., Steck, P., Meyer, C., Tschumi, M., & Haldimann, S. (2013). Fatigue safety examination of a riveted railway bridge using data from long term monitoring. In IABSE Symposium Report (Vol. 99, No. 25, pp. 477–484). International Association for Bridge and Structural Engineering.
- Cremona, C. (2003). Application des notions de fiabilité à la gestion des ouvrages existants. Association Française de Génie Civil, Presse de l’École Nationale des Ponts et Chaussées.
- Cremona, C. (2008). Evaluation structurale des ponts: Rapport de synthèse de l'opération de recherche (2004-2007).
- De Jesus, A. M., da Silva, A. L., Figueiredo, M. V., Correia, J. A., Ribeiro, A. S., & Fernandes, A. A. (2011). Strain-life and crack propagation fatigue data from several Portuguese old metallic riveted bridges. Engineering Failure Analysis, 18(1), 148–163.
- EN 14399-1 (2005). High-strength structural bolting assemblies for preloading, international standard.
- EN ISO 898-1 (2009). Mechanical properties of fasteners made of carbon steel and alloy steel, international standard.
- Hai, D. T. (2006). Current status of existing railway bridges in Vietnam: An overview of steel deficiencies. Journal of Constructional Steel Research, 62, 987–994
- Helmerich, R., Kühn, B., & Nussbaumer, A. (2007). Assessment of existing steel structures. A guideline for estimation of the remaining fatigue life. Structure and Infrastructure Engineering, 3, 245–255.
- Kuehn, B., Lukić, M., Nussbaumer, A., Guenther, H. P., Helmerich, R., Herion, S. H. K. M., & Bucak, Ö. (2008). Assessment of existing steel structures: recommendations for estimation of remaining fatigue life. JRC Scientific and technical Report.
- Lafrance M, Hubo R, Perdix C. (2000). Des aciers pour les ponts: Bulletin ponts métalliques N° 20 OTUA, 124–133
- Larson, T. (2009). Fatigue assessment of riveted bridges (Thesis). Lulea University of technology, p. 165.
- SIA 161 Standard (1979). Steel structures, Swiss society of engineers and architects, Zurich.
- Pipinato, A., Pellegrino, C., Bursi, O. S., & Modena, C. (2009). High-cycle fatigue behavior of riveted connections for railway metal bridges. Journal of Constructional Steel Research, 65, 2167–2175.
- Plu, B., Lecroq, P. H. (2000). Gestion, entretien et réparation des ponts métalliques: Bulletin ponts métalliques N° 20 OTUA, 142–149.
- Ramondenc, P. H., Plu, B., Sauvage, G. (2000). Les ponts rails métalliques: Bulletin ponts métalliques N° 20 OTUA, 44–45.
- SNTF (1889). Railway bridges archives and data sheets of Oued Tlelat-Morocco border line.
- SNTF-ARE, Report (1985). Modernization and development of existing rail infrastructure of Oued Tlelat-Morocco border line, Algerian-Austrian cooperation in the railway sector.
- SNTF-SHALCHER and ASSOCIES, Report (1979). Auscultation of metal railway bridges of the Mohammadia-Bechar line, Algerian-Swiss cooperation in the field of railways.
- Sustainable Bridges (2007). Improved assessment methods for static and fatigue resistance of old steel railway.
- Vican, J., Gocal, J., Ordrobinak, J., & Kotes, P. (2016). Analysis of existing steel railway bridges. Procedia Engineering, 156, 507–514.