For the first time, a complex design was proposed from modern heat-efficient materials – gas silicate and foam concrete, to increase the storey of buildings, especially in seismically hazardous areas. The technique was developed and compressed masonry elements from small cellular blocks with foam concrete cores were tested with short-term action of axial load. The nature of the destruction of experimental elements with various reinforcement schemes and the degree of joint work of monolithic foam concrete with gas silicate masonry in a complex structure is established. The strength of complex elements of structures was evaluated and the effectiveness of their use for increasing the bearing capacity of masonry of walls and pillars in the construction of buildings of small and medium storeys was shown. The efficiency of this method of strengthening the masonry of pillars is characterized by an increase in strength of up to 12.5%. Recommendations on the design and technology of manufacturing complex structures from gas silicate blocks and monolithic foam concrete are given.
Experimental Research of Compressed Masonry Elements Made of Gas Silicate Blocks with Foam Concrete Cores
Lect. Notes in Networks, Syst.
International Scientific Siberian Transport Forum ; 2021 May 11, 2021 - May 14, 2021
International Scientific Siberian Transport Forum TransSiberia - 2021 ; Kapitel : 156 ; 1399-1406
2022-03-18
8 pages
Aufsatz/Kapitel (Buch)
Elektronische Ressource
Englisch
Float-Ram: A Sustainable Machine for Buildings Made by Compressed Earth Blocks
Springer Verlag | 2021
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