Search Results1-9 of  9

  • LIN Shenglei ID: 9000345252853

    Tokyo Institute of Technology (2016 from CiNii)

    Articles in CiNii:1

    • PARTICLE SIZE DEPENDENCY OF COAL FLY ASH AMENDMENT AND THE IMPACT OF SUFFACE MODIFICATION ON SAND WATER RETENTION CAPACITY (2016)
  • LIN Shenglei ID: 9000347198246

    Tokyo Institute of Technology (2015 from CiNii)

    Articles in CiNii:1

    • The effect of coal fly ash amendment on water holding capacity of natural soils: Its dependency on fly ash treatment method, temperature, and soil type (2015)
  • LIN Shenglei ID: 9000375896879

    Tokyo Institute of Technology (2017 from CiNii)

    Articles in CiNii:1

    • Effect of Organic Treated Fly Ash on Water Retention Capacity of Soils (2017)
  • LIN Shenglei ID: 9000399757847

    School of Environment and Society, Tokyo Institute of Technology, Japan (2018 from CiNii)

    Articles in CiNii:1

    • The impacts of raw and apatite-synthesized coal fly ash amendment on water retention capacity focusing on fly ash treatment, water repellency and surface area (2018)
  • LIN Shenglei ID: 9000400166395

    Department of Transdisciplinary Science and Engineering, School of Environment and Society, Tokyo Institute of Technology (2018 from CiNii)

    Articles in CiNii:1

    • The impacts of raw, apatite-synthesized and organic-treated coal fly ash amendment on soil/sand water retention capacity (2018)
  • Lin Shenglei ID: 9000345251982

    Tokyo Institute of Technology (2016 from CiNii)

    Articles in CiNii:1

    • Effect from mixing apatite synthesized fly ash on water retention capacity of soil and sand: correlation with surface area (2016)
  • Lin Shenglei ID: 9000347170623

    東京工業大学 (2014 from CiNii)

    Articles in CiNii:1

    • The effect of coal fly ash amending on water holding capacity of natural soils and sands: A preliminary study (2014)
  • Lin Shenglei ID: 9000347199081

    Tokyo Institute of Technology (2015 from CiNii)

    Articles in CiNii:1

    • SOIL PARTICLE SIZE DEPENDENCY OF WATER HOLDING CAPACITIES OF SOILS AMENDED WITH/WITHOUT COAL FLY ASH (2015)
  • Lin Shenglei ID: 9000375896374

    Tokyo Institute of Technology (2017 from CiNii)

    Articles in CiNii:1

    • The effect of thermal treatment with organic compounds and sodium bicarbonate for coal fly ash on water retention capacity (2017)
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