グラウト材の塑性粘度とろ過理論を導入した注入解析の現場への適用性 : グラウチングにおけるグラウト材の浸透挙動に関する研究(第3報)  [in Japanese] Study on Plastic Viscosity of Grout Materials and Applicability to Field of Injection Analysis Introducing Filtration Theory : Study on infiltration behavior of grout materials in grouting(3rd Report)  [in Japanese]

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Author(s)

Abstract

A bleeding examination and a flow characteristic examination of grout materials were performed to understand a difference of the flow characteristic by the difference in the material mixed grout materials. Moreover, the flow characteristic of grout materials in the voids and applicability to field of injection analysis were examined. The results are as follows<BR>1) The influence of bleeding becomes the largest during a flow of <i>W</i> + <i>C</i>.<BR>2) In <i>W</i> + <i>C</i> + <i>P</i> + <i>B</i>, the bleeding is controlled by making the connection with a clay particle and the electrolyte generated from cement.<BR>3) <i>W</i> + <i>C</i> + <i>P</i> and <i>W</i> + <i>C</i> of 15 % or less of volume concentration can be assumed to be Newton fluid. However, <i>W</i> + <i>C</i> + <i>P</i> + <i>B</i> must be taken as Bingham fluid since yield stress changes with volume concentration a lot.<BR>4) The plastic viscosity of the grout materials which flows the inside of the voids follows the theoretical equation which Mori and Ototake (1955) introduced regardless of the kind of grout materials.<BR>5) The injection water and the injection grout materials will be flow in the laminar flow state if there is a proportional relation to the injection pressure, the discharge and Lugeon value.<BR>6) It analyzed about the stage which has the relation shown by the above 5). Consequently, the injection analysis and the field data were well in agreement, and the applicability to the field of this analysis technique was confirmed.

Journal

  • Shigen-to-Sozai

    Shigen-to-Sozai 118(5), 385-391, 2002-06-25

    The Mining and Materials Processing Institute of Japan

References:  15

Codes

  • NII Article ID (NAID)
    10008852236
  • NII NACSIS-CAT ID (NCID)
    AN10062646
  • Text Lang
    JPN
  • Article Type
    ART
  • ISSN
    09161740
  • NDL Article ID
    6191306
  • NDL Source Classification
    ZP41(科学技術--金属工学・鉱山工学)
  • NDL Call No.
    Z17-315
  • Data Source
    CJP  NDL  J-STAGE 
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