Open Access
E3S Web Conf.
Volume 201, 2020
Ukrainian School of Mining Engineering - 2020
Article Number 01031
Number of page(s) 9
Published online 23 October 2020
  1. Akhoundi, F., Vasconcelos, G., & Lourenęo, P. (2020). Experimental out-of-plane behavior of brick masonry infilled frames. International Journal of Architectural Heritage, 14(2), 221-237. [CrossRef] [Google Scholar]
  2. Alecci, V., Barducci, S., D’Ambrisi, A., De Stefano, M., Focacci, F., Luciano, R., & Penna, R. (2019). Shear capacity of masonry panels repaired with composite materials: Experimental and analytical investigations. Composites Part B: Engineering, (171), 61-69. [CrossRef] [Google Scholar]
  3. Sena da Fonseca, B., Ferreira Pinto, A.P., & Vaz Silva, D. (2020). Compositional and textural characterization of historical bedding mortars from rubble stone masonries: Contribution for the design of compatible repair mortars. Construction and Building Materials, (247), 118627. [Google Scholar]
  4. Garcia-Ramonda, L., Pela, L., Roca, P., & Camata, G. (2020). In-plane shear behaviour by diagonal compression testing of brick masonry walls strengthened with basalt and steel textile reinforced mortars. Construction and Building Materials, (240), 117905. [Google Scholar]
  5. Grande, E., Milani, G., Bertolesi, E., Fagone, M., & Rotunno, T. (2020). Modeling of the Tensile Behavior FRCM Systems for Repair and Strengthening Interventions of Masonry Structures. Frontiers in Built Environment, (6), 51. [Google Scholar]
  6. Hulimka, J., Kałuża, M., & Kubica, J. (2018). Failure and overhaul of a historic brick tower. Engineering Failure Analysis, 102, 46-59. [Google Scholar]
  7. Lv, H., Xie, H., Zhou, S., & Lei, S. (2014). Study on Deterioration Mechanism and Prevention and Curing Techniques of an RC Bunker. In 4th International Conference on the Durability of Concrete Structures (pp. 369-375). West Lafayette, Indiana, USA: Purdue University. [Google Scholar]
  8. Marian, D.P., Onica, I., Marian, R.R., & Floarea, D.A. (2020). Finite Element Analysis of the State of Stresses on the Structures of Buildings Influenced by Underground Mining of Hard Coal Seams in the Jiu Valley Basin (Romania). Sustainability, 12(4), 1598. [Google Scholar]
  9. Nowak, R., & Orłowicz, R. (2020). Testing of Chosen Masonry Arched Lintels. International Journal of Architectural Heritage, 1-15. [Google Scholar]
  10. Rodriguez Mayorga, E., Cobo, A., Yanes, E., & Saez, A. (2019). The Repair of the Structure of Santiago’s Church (Jerez De La Frontera, Spain) Using Grout-Injection. International Journal of Architectural Heritage, 13(8),1234-1251. [CrossRef] [Google Scholar]
  11. Verderame, G. M., Balsamo, A., Ricci, P., Di Domenico, M., & Maddaloni, G. (2019). Experimental assessment of the out-of-plane response of strengthened one-way spanning masonry infill walls. Composite Structures, (230), 111503. [Google Scholar]
  12. Khan, W., Akhtar, S., & Hussain, A. (2019), September. Rehabilitation of concrete and masonry structures. In AIP Conference Proceedings, 2158(1), 020028. [Google Scholar]
  13. Ming, Z.Z., Bao, Z.R., & Jiang, W.L. (2019, October). Study and application of joint layout of underground coal bunker and gangue bin in Guotun coal mine. In IOP Conference Series: Earth and Environmental Science, 330(3), 032060. [CrossRef] [Google Scholar]
  14. Canadian Standards Association (CSA). (1994). Masonry design for buildings. CSA Standard S304. 1-94, Rexdale, Ontario, Canada. [Google Scholar]
  15. Canadian Standards Association (CSA). (1994). Mortar and Grout for Unit Masonry. A179-94, Rexdale, Ontario, Canada. [Google Scholar]
  16. Jafari, S., Esposito, R., & Rots, J.G. (2018). A comparative study on different testing methods to evaluate the compression properties of masonry. In Proceedings of the 10th International Masonry Society Conferences (pp. 1421-1431). Milan, Italy. [Google Scholar]
  17. Monni, F. (2018). Innovative masonry strengthening techniques maintaining the original brickwork appearance: An overview. Rehabend, 221479, 2215-2222. [Google Scholar]
  18. Penazzi, D., Valluzzi, M.R., Saisi, A., Binda, L., & Modena, C. (2001). Repair and strengthening of historic masonry buildings in seismic areas. In Proc. Int. Millennium Congress “More than two thousand years in the history of architecture safeguarding the structure of our architectural heritage” (pp. 1-7). Bethlehem, Palestine. [Google Scholar]
  19. Wang, X., Xie, W., Bai, J., Jing, S., & Su, Z. (2019). Large-Deformation Failure Mechanism of Coal-Feeder Chamber and Construction of Wall-Mounted Coal Bunker in Underground Coal Mine with Soft, Swelling Floor Rocks. Advances in Civil Engineering, 2019, 1-16. [Google Scholar]
  20. Yuan, Y.S., Qin, J., & Yang, S.C. (1999). Structural protection system of masonry house for resisting ground movement induced by coal mining. Journal of China University of Mining&Technology, 28(6),530-534. [Google Scholar]
  21. Costa, A.A., Arede, A., Costa, A., & Oliveira, C.S. (2011). In situ cyclic tests on existing stone masonry walls and strengthening solutions. Earthquake Engineering & Structural Dynamics, 40(4), 449-471. [Google Scholar]
  22. Karabulut, S. Non-destructive methods for determining weathering in historical monuments: a case study from Merv City, Turkmenistan. Yerbilimleri Dergisi, 40(2),210-233. [Google Scholar]
  23. Netinger Grubesa, I., Teni, M., Krstić, H., & Vracević, M. (2019). Influence of freeze/thaw cycles on mechanical and thermal properties of masonry wall and masonry wall materials. Energies, 12(8), 1464. [Google Scholar]
  24. Tang, Y., Shao, Z., & Xu, T. (2018). Uniaxial compressive tests on ancient brick masonry from heritage buildings under unsaturated freeze-thaw conditions. Construction and Building Materials, (183), 706-715. [Google Scholar]
  25. Uranjek, M., & Bokan-Bosiljkov, V. (2015). Influence of freeze-thaw cycles on mechanical properties of historical brick masonry. Construction and building Materials, (84), 416-428. [Google Scholar]
  26. Zheng, S., Song, Z., & Zhao, P. (2016). Influence of Freeze-Thaw Cycle on Compressive Behaviors of Recycled Concrete Brick Masonry. Journal of Building Materials, 19(1),131-136. [Google Scholar]
  27. Shushkevich, V.I. (1992). Inspection of the technical condition of the load-bearing walls of the upper floor of the bunker building with the development of reinforcement drawings, repair technology, and recommendations for further safe operation. Steel structures. Research Report. [Google Scholar]

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