Main Physical-Mechanic Properties of Concrete Samples Taken From Bražuolė – First Removed Dam in Lithuania

Association of State Dam Safety Officials [ASDSO] (2021). Dam Incident Database Search. Retrieved from: https://damsafety.org/Incidents [accessed 17.11.2021]. Search in Google Scholar

Dam Removal Europe (2021). Bražuolė dam, Lithuania. Retrieved from: https://damremoval.eu/portfolio/brazuole-dam-lithuania [accessed 17.11.2021]. Search in Google Scholar

Damulevičius, V., Rimkus, Z. & Vyčius, J. (2001). Investigation of technical state of hydraulic structures in Lithuania. Water Management Engineering, 14 (36), 81–89. Search in Google Scholar

European Standard European Committee for Standardization [CEN] (2007). Assessment of in-situ compressive strength in structures and precast concrete components (EN 13791:2007). Brussels: European Standard European Committee for Standardization. Search in Google Scholar

European Standard European Committee for Standardization [CEN] (2009a). Testing hardened concrete. Part 3: Compressive strength of test specimens (12390-3:2009). Brussels: European Standard European Committee for Standardization. Search in Google Scholar

European Standard European Committee for Standardization [CEN] (2009b). Testing hardened concrete. Part 8: Depth of penetration of water under pressure (EN 12390-8:2009). Brussels: European Standard European Committee for Standardization. Search in Google Scholar

European Standard European Committee for Standardization [CEN] (2013). Concrete – Specification, performance, production, and conformity (EN 206:2013+A2:2021). Brussels: European Standard European Committee for Standardization. Search in Google Scholar

He, X. Y., Wang, Z. Y. & Huang, J. C. (2008). Temporal and spatial distribution of dam failure events in China. International Journal of Sediment Research, 23, 398–405.10.1016/S1001-6279(09)60010-X Search in Google Scholar

Lithuanian Standards Board [LST] (2020). Statybinis skiedinys. Bandymo metodai. Drëgnumo ir vandens ágeriamumo nustatymas (LST 1413.10:1997/P:2020) [Mortar. Testing methods. Determination of moisture and water absorbability (LST 1413.10:1997/P:2020)]. Vilnius: Lithuanian Standards Board. Search in Google Scholar

Perera, D., Smakhtin, V., Williams, S., North & Curry, A. (2021). Ageing Water Storage Infrastructure: An Emerging Global Risk (UNU-INWEH Report Series, Issue 11). Hamilton: United Nations University Institute for Water, Environment and Health. Search in Google Scholar

Šadzevičius, R. & Mikuckis, F. (2010). Defects and deteriorations of the reinforced concrete service bridges on the hydroschemes. Water Management Engineering, 36 (56), 92–99. Search in Google Scholar

Šadzevičius, R., Mikuckis, F. & Ramukevičius, D. (2011). Defect analysis of reinforced concrete slabs for earth dam slope protection. In Civil Engineering ‘11: 3^rd International Scientific Conference: Proceedings (Vol. 3, pp. 44–49). Jelgava: The Latvia University of Agriculture. Search in Google Scholar

Šadzevičius, R., Patašius, A. & Mikuckis, F. (2009). The classification of cracks according to their riskiness for structures of reinforced concrete wing walls on stilling basin of hydroschemes. Water Management Engineering, 35 (55), 110–116. Search in Google Scholar

Šadzevičius, R., Sankauskienė, T. & Mikuckis, F. (2013). Limit deformations of retaining walls in Lithuanian hydroschemes. In Civil Engineering ‘13: 4^th International Scientific Conference: Proceedings (Vol. 4, Part 1, pp. 336–340). Jelgava: The Latvia University of Agriculture. Search in Google Scholar

Šadzevičius, R., Skominas, R. & Radzevičius, A. (2021). Assessment on the Technical State of Spillway Concrete Gravity Dams in Lithuania. Journal of Sustainable Architecture and Civil Engineering, 1 (28), 106–117. https://doi.org/10.5755/j01.sace.28.1.2769410.5755/j01.sace.28.1.27694 Search in Google Scholar

Statybos techninis reglamentas STR 2.05.05:2005 “Betoninių ir gelžbetoninių konstrukcijų projektavimas“ patvirtintas Lietuvos Respublikos aplinkos ministro 2005 m. sausio 26 d. ásakymu Nr. D1-44 [Technical Building Regulation STR 2.05.05:2005 „Design of concrete and reinforced concrete structures” approved by the Minister of the Environment of the Republic of Lithuania on 26 January 2005. Order No D1-44]. Search in Google Scholar

Vaišvila, K. A. & Mikuckis, F. (2005). Evaluation on the compressive strength of concrete by testing the samples of irregular shape. In Civil Engineering ‘05: International Scientific Conference (pp. 12–20). Jelgava: The Latvia University of Agriculture. Search in Google Scholar

World Register of Dams (2020). General Synthesis. Retrieved from: https://www.icold-cigb.org/GB/world_register/general_synthesis.asp [accessed 17.11.2021]. Search in Google Scholar

Zhang, L. M., Xu, Y. & Jia, J. S. (2009). Analysis of earth dam failures: A database approach, Georisk: Assessment and Management of Risk for Engineered Systems and Geohazards, 3 (3), 184–189. https://doi.org/10.1080/1749951090283175910.1080/17499510902831759 Search in Google Scholar