The production of prefabricated components faces a series technological problems. These include low concrete pouring efficiency, non-cyclic pouring, incapability of lifting concrete in the transportation process, incapability of moving along the direction of components and uniformly spreading concrete, and non-applicability to pouring of large-volume concrete. To solve these problems, an uninterrupted cyclic automatic transportation, hoisting, and distribution system of concrete was proposed. Its construction method and specific implementation process were studied. On this basis, key processes in uninterrupted cyclic concrete construction of prefabricated components were put forward, which can provide practical and technological reference for similar engineering.

Li Hongqiang. An uninterrupted cyclic automatic transportation, hoisting, and distribution system of concrete. Academic Journal of Architecture and Geotechnical Engineering (2024) Vol. 6, Issue 1: 74-78. https://doi.org/10.25236/AJAGE.2024.060111.

[1] Luo L, Schutter G.Influence of corrosion inhibitors on concrete transport properties[J].Materials and structures, 2008, 41(9):1571-1579.

[2] Conciatori D, Grégoire É, Samson É, et al.Statistical analysis of concrete transport properties[J]. Materials and Structures, 2014, 47(1-2):89-103.

[3] Aronowitz D, Steward N, Bradley R.The design of a suspended concrete transport pipeline system[J]. Journal of the South African Institute Of Mining Metallurgy, 2008, 108(11):707-713.

[4] Zeng J W, Yang Q S.Integral Hoisting Technology of Arch Rib of Concrete Filled Steel Tube Arch Bridge [J].Applied Mechanics and Materials, 2013, 2685(405-408):3086-3089.

[5] Zhao L. The Evaluation System on Green Concrete Construction Technology of Post-Disaster Reconstruction of Underground Engineering [J].Applied Mechanics and Materials, 2014, 3309(584-586): 1718-1724.

[6] Huang X S, Sun J C, Tang N, et al.Research on Construction Technology of Self-Monitoring Asphalt Concrete[J].Applied Mechanics and Materials, 2013, 2308(303-306):2485-2489.

[7] Sun Y, Wang M Y, Cheng L, et al.Construction Technology and Benefit Analysis of Fair-Faced Concrete in High-Rise Building[J].Advanced Materials Research, 2012, 1615(446-449):3690-3693.

[8] Yin H S, Dong N Y.Construction Technology of Concrete Filled Steel Tubular in Shenyang Wanxin Building[J].Applied Mechanics and Materials, 2012, 1800(170-173):3266-3269.