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All issues Volume 361 (2022) MATEC Web Conf., 361 (2022) 07002 References
Open Access
Issue
MATEC Web Conf.
Volume 361, 2022
Concrete Solutions 2022 – 8th International Conference on Concrete Repair, Durability & Technology
Article Number 07002
Number of page(s) 9
Section Theme 7 - Performance Evaluation
DOI https://doi.org/10.1051/matecconf/202236107002
Published online 30 June 2022
  1. R.T. Morgan, P.R. Grosser, Code Provissions for Cast-in-place Anchor Channel, Structure Magazine, pp.14–17 (September 2016). [Google Scholar]
  2. J. Bujňáka, B. Robriquet, On the behavior of headed fastenings between steel and concrete. Procedia Engineering 40, pp.62–67, (2012). [Google Scholar]
  3. J. Shin, J. H. Kim, H. J. Chang, Anchor plate effect on the breakout capacity in tension for thin-walled concrete panels. Eng. Structures. 106, pp.147–153, (2016) [Google Scholar]
  4. K.H. Yang, A. F Ashour, Mechanism analysis for concrete breakout capacity of single anchors in tension. ACI Struct, 105, pp. 609–625(2008). [Google Scholar]
  5. R. Piccinin, R. Ballarini, F. ASCE, S. Cattaneo, Linear Elastic Fracture Mechanics Pullout Analysis of Headed Anchors in Stressed Concrete. J. Eng. Mechanics, [ lipseste numarul] pp.761–768, (2010) [Google Scholar]
  6. L. Pallarés, J. F. Hajjar, Headed Steel Stud Anchors in Composite Structures:Part II – Tension and Interaction. Newmark Str. Eng. Lab., 014 (2009) [Google Scholar]
  7. J. Shin, J. H. Kim, H. J. Chang, Anchor plate effect on the breakout capacity in tension for thin-walled concrete panels. Eng. Structures. 106, pp.147–153, (2016). [Google Scholar]
  8. R. Nilforoush, M. Nilsson, L. Elfgren, Experimental evaluation of tensile behaviour of single cast-in-place anchor bolts in plain and steel fibre-reinforced normal- and high-strength concrete. Eng. Structures. 147, pp.195–296, (2016) [Google Scholar]
  9. F. Bahleda, P. Bujňáková, P. Koteš, L. Hasajová, F. Nový, Mechanical Properties of Cast-in Anchor Bolts Manufactured of Reinforcing Tempcore Steel Materials. 12, pp.1–13, (2019). [Google Scholar]
  10. P. Courtois, Industrial Research on Connections for Precast and in Situ Concrete, A. C. I., Michigan, pp. 123–188, (1969) [Google Scholar]
  11. S. Ali Al Taan, A. K. Ali Mohammed, A. A. R. Al-Jaffal, Breakout Capacity of Headed Anchors in Steel Fibre Normal and High Strength Concrete. Asian J. of App. Sci., 5, pp. 485–496, (2012). [Google Scholar]
  12. H. Bode, K. Roik, Headed Studs – Embedded In Concrete And Loaded In Tension, A. C. I., SP 103-4, pp. 61–88, (1987) [Google Scholar]
  13. Cook, R. A., Collins D.M., Klingner, R. E. and Polyzois D. Load Deflection Behavior of Cast-In-Place and Retrofit Concrete Anchors ACI Structural Journal, 89, pp. 639–649(1992). [Google Scholar]
  14. R. Eligehausen, K. Bergmeister, Tragverhalten und Bemessung von Ankerschienen unter zentrischer Zugbelastung. Institut für Werkstoffe im Bauwesen der Universität Stuttgart, pp.131–216, (2003). [Google Scholar]
  15. R. Eligehausen, K. Bergmeister, Tragverhalten und Bemessung von Ankerschienen unter zentrischer Zugbelastung. Institut für Werkstoffe im Bauwesen der Universität Stuttgart, pp.1–40, (2003). [Google Scholar]
  16. R. Eligehausen, K. Bergmeister, Tragverhalten und Bemessung von Ankerschienen unter zentrischer Zugbelastung. Institut für Werkstoffe im Bauwesen der Universität Stuttgart, pp.41–130, (2003). [Google Scholar]
  17. L. .Bujnaka, F. Bahledaa, M. Farbak, Headed fastenings acting in cooperation with supplementary steel reinforcement. Procedia Engineering 91, pp. 250–255, (2014). [Google Scholar]
  18. D. Konertz, G. K. Kocur, F. Häusler, P. Mark, Longitudinal shear transmission of anchor channels into concrete—An experimental approach. Str. Concrete. 22, pp.1072–1084, (2021) [Google Scholar]
  19. S. Ali Al Taan, A. K. Ali Mohammed, A. A. R. Al-Jaffal, Breakout Capacity of Headed Anchors in Steel Fibre Normal and High Strength Concrete. Asian J. of App. Sci., 5, pp. 485–496, (2012). [Google Scholar]
  20. Fröhlich, D. Lotze, Testing and Evaluation of Anchor Channel sunder Fatigue Loading. Civil. Eng. 2, pp.1–13, (2021). [Google Scholar]
  21. ETA-09/0339, European Technical Assessment, Halfen HTA-CE Cast-In-Channels, pp.1–34 (June 2018). [Google Scholar]
  22. S. Cattaneo, P. Crespi, A. Bonati, M. Scamardo, Tensile behavior of different anchor channel connections. J. Build. Eng. 45, pp.1–15, (2021) [Google Scholar]
  23. McGuill, J. Keenahan, A Parametric Study of Wind Pressure Distributionon Façades Using Computational Fluid Dynamics. J. Appl. Sci., 10, pp.1–27, (2020). [Google Scholar]
  24. BS EN 1992-4 - Eurocode 2 - Design of concrete structures - Part 4: Design of fastenings for use in concrete. The British Standards Institution, London, UK, (2018). [Google Scholar]
  25. BS EN 206-1:2000 – Part 1: Specification, performance, production and conformity. The British Standards Institution, London, UK, (2006) [Google Scholar]
  26. BS EN 1990:2002- Eurocode Basis of Structural Design . The British Standards Institution, London, UK, (2013) [Google Scholar]

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