Using an experimental model to study the properties of fine-grained high-performance concrete

  • Affiliations:

    1 Ha Noi University of Mining and Geology, Hanoi, Vietnam
    2 Moscow State University of Construction, Moscow, Russia
    3 College of Industrial and Constructional, Quang Ninh, Vietnam

  • *Corresponding:
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  • Received: 15th-Oct-2020
  • Revised: 21st-Jan-2021
  • Accepted: 1st-Feb-2021
  • Online: 28th-Feb-2021
Pages: 73 - 84
Views: 3671
Downloads: 1248
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Abstract:

This study uses the mathematical method of two-factors rotatable central compositional planning to predict and simulate the effect of the ratio of water-cement (N/X) and sand - binder (C/CKD) as the input parameters on the objective functions of the spreading flow of concrete mixtures and the compressive strength of fine-grained high-performence concrete (FGHPC) at 28 days. Results of the study showed that, from the material source in Vietnam, it is possible to FGHPC with a flow of 18.5 cm in the mini cone, its compressive and flexural strengths at the age of 28 days are 68.5 MPa and 6.13 MPa, respectively. Furthermore, from the obtained objective functions, it has been shown that the both two-input parameters have a significant influence on the values of the experimental models. Particularly, using Matlab software is showed the expression surface, the contour line of the experimental models, and determined the maximum value of compressive strength of FGHPC at this age of 69.84 MPa at N/X=0.326 and C/CKD=1.315. The contribution of this study is to obtain regression functions to predict the mechanical-physical properties of FGHPC that will be used in the next in-depth studies.

How to Cite
Van, L.Tang, Kim, D.Vu, Xuan, H.Ngo, Igorevich, B.Boris, Do, C.Minh and Nguyen, D.Van 2021. Using an experimental model to study the properties of fine-grained high-performance concrete (in Vietnamese). Journal of Mining and Earth Sciences. 62, 1 (Feb, 2021), 73-84. DOI:https://doi.org/10.46326/JMES.2021.62(1).09.
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