Research article

Influence of concrete bleeding due to mix proportion on the drilling speed of hardened surface layer

  • Received: 02 March 2021 Accepted: 18 June 2021 Published: 23 June 2021
  • The significance of micro-destructive testing, which can estimate the durability of reinforced concrete structures with minimal damage and high accuracy, in the investigation and diagnosis of reinforced concrete structures has been increasing. This study aims to evaluate the quality of the surface layer of concrete structures via a small-diameter drilling test, which is one of the micro-destructive tests developed to estimate the strength of concrete. Hence, it would be possible to evaluate the quality and strength of concrete simultaneously, which is very important.

    In this study, the influence of the bleeding amount which affects the surface quality of concrete on the drilling speed, was experimentally studied, considering the water-cement ratio and unit water content as experimental factors. The influence of bleeding on the drilling speed of the specimen surface was also investigated through measurements at the top and bottom surfaces.

    The following points were clarified from the experimental results and their analysis. (1) The drilling speed changes depending on the water-cement ratio and the unit water content. (2) The amount of bleeding affects the drilling speed; however the drilling speed is affected by the volume of the fine aggregate in the specimen. Therefore, (3) there is a possibility that it can be used for surface quality evaluation of concrete by examining in detail the method for calculating and correcting the drilling speed.

    Citation: Ayumu Yasue, Keita Hayashi, Shogo Yamamoto, Toshitsugu Inukai, Shigeru Fujimori. Influence of concrete bleeding due to mix proportion on the drilling speed of hardened surface layer[J]. AIMS Materials Science, 2021, 8(3): 486-500. doi: 10.3934/matersci.2021030

    Related Papers:

  • The significance of micro-destructive testing, which can estimate the durability of reinforced concrete structures with minimal damage and high accuracy, in the investigation and diagnosis of reinforced concrete structures has been increasing. This study aims to evaluate the quality of the surface layer of concrete structures via a small-diameter drilling test, which is one of the micro-destructive tests developed to estimate the strength of concrete. Hence, it would be possible to evaluate the quality and strength of concrete simultaneously, which is very important.

    In this study, the influence of the bleeding amount which affects the surface quality of concrete on the drilling speed, was experimentally studied, considering the water-cement ratio and unit water content as experimental factors. The influence of bleeding on the drilling speed of the specimen surface was also investigated through measurements at the top and bottom surfaces.

    The following points were clarified from the experimental results and their analysis. (1) The drilling speed changes depending on the water-cement ratio and the unit water content. (2) The amount of bleeding affects the drilling speed; however the drilling speed is affected by the volume of the fine aggregate in the specimen. Therefore, (3) there is a possibility that it can be used for surface quality evaluation of concrete by examining in detail the method for calculating and correcting the drilling speed.



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    [1] Matsuzaki S, Yoshida R, Kishi T (2009) Influence and the care dependency that unit volume of water and ratio of water cement, Proceedings of the Japan Concrete Institute, 31: 757-762. Available from: http://data.jci-net.or.jp/data_html/31/031-01-1120.html.
    [2] Kato Y, Hayakawa K (2012) A study on linkage between durability design and inspection system for carbonation-corroded reinforcement based on the air permeability test of surface concrete. JSCE 68: 410-421.
    [3] Park S, Fujimori S, Aoki T, et al. (2017) Estimation of compressive strength of concrete by drilling type surface strength tester. Proceedings of the Japan Concrete Institute, 39: 1207-1212. Available from: http://data.jci-net.or.jp/data_html/39/039-01-2202.html.
    [4] Fujimori S, Hasegawa T, Hatanaka S, et al. (2017) Study on improvement of small-diameter drilling tester and it's application examination for concrete. AIJ J Technol Des 23: 25-30. doi: 10.3130/aijt.23.25
    [5] Yasue A, Hayashi K, Kato K, et al. (2019) Experimental study on air permeability of hardening mortar surface by drilling speed, Proceedings of the Concrete Structure Scenarios, 20: 13-18.
    [6] Kato M, Aoki T, Aoki H, et al. (2019) Estimation of compressive strength of bricks using the Small-diameter drilling tester. Summaries of Technical Papers of Annual Meeting, Architectural Institute of Japan Search, 637-638. Available from: https://www.aij.or.jp/paper/detail.html?productId=634902.
    [7] Abe M, Nakama S, Suzuki S (2017) Experimental study on establishment of prediction equation of bleeding of concrete. J Struct Constr Eng 82: 1309-1319. Available from: https://doi.org/10.3130/aijs.82.1309.
    [8] Liang J, Maruya T, Sakamoto J, et al. (2013) Method for compactability evaluation of concrete based on compaction completion energy. JSCE 69: 438-449.
    [9] Mikami T, Tsunemi Y, Sakai E (2000) Influence of trowel finishing specifications on surface strength of floor concrete. J Struct Constr Eng 65: 15-20. Available from: https://doi.org/10.3130/aijs.65.15_2.
    [10] Yagawa R, Nakata Y, Otsuka S, et al. (2019) Experimental study about the influence the volume ratio of the coarse aggregate exerts on carbonation of concrete and coefficient of air permeability. Proceedings of the Japan Concrete Institute, 41: 611-616. Available from: http://data.jci-net.or.jp/data_html/41/041-01-1097.html.
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  • © 2021 the Author(s), licensee AIMS Press. This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0)
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