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Fukui Kazuma  福井 一真

ORCIDConnect your ORCID iD *help
Researcher Number 00908767
Other IDs
Affiliation (Current) 2025: 神戸大学, 工学研究科, 助教
Affiliation (based on the past Project Information) *help 2021 – 2024: 神戸大学, 工学研究科, 助教
Review Section/Research Field
Principal Investigator
Basic Section 23020:Architectural environment and building equipment-related / 0304:Architecture, building engineering, and related fields
Except Principal Investigator
Basic Section 23020:Architectural environment and building equipment-related / Basic Section 23010:Building structures and materials-related
Keywords
Principal Investigator
熱水分同時移動 / 実環境 / 凍害 / 耐久性予測 / 劣化リスク / 吸水試験 / ガンマ線減衰法 / 毛管飽和 / Entrapped air / 凍結融解 … More / 多孔質建築材料 / 組積造 / 異方性 / Poromechanics / ひずみ / 熱水分移動 / 数値解析 / 組積造建築 … More
Except Principal Investigator
石材 / 劣化メカニズム / 応力 / 熱水分 / 予測モデル / 劣化 / 力学特性 / 材料物性 / 水分特性 / 凝灰岩 / 多孔質材料 / 熱水分同時移動 / 解析モデル / 測定 / 測定法 / 水蒸気 / 吸着 / モデル / 湿気物性値 / 熱分析 / 凍結破壊 / 異方性 / X線CT / 材料変形 / ひずみ / エネルギー / TMA / DSC / 凍害 / 過冷却 / 凍結融解 Less
  • Research Projects

    (5 results)
  • Research Products

    (14 results)
  • Co-Researchers

    (5 People)
  •  Efficiency improvement of moisture property measurement for building materials and model validation, focusing on water vapor adsorption process

    • Principal Investigator
      高田 暁
    • Project Period (FY)
      2023 – 2026
    • Research Category
      Grant-in-Aid for Scientific Research (B)
    • Review Section
      Basic Section 23020:Architectural environment and building equipment-related
    • Research Institution
      Kobe University
  •  建築物の凍害リスク評価のための超高含水率領域における熱水分移動現象のモデル化Principal Investigator

    • Principal Investigator
      福井 一真
    • Project Period (FY)
      2023 – 2025
    • Research Category
      Grant-in-Aid for Early-Career Scientists
    • Review Section
      Basic Section 23020:Architectural environment and building equipment-related
    • Research Institution
      Kobe University
  •  Prediction of Deterioration of Tuff Stones Used for Building Exterior Based on Thermal Moisture Stress Analysis

    • Principal Investigator
      宇野 朋子
    • Project Period (FY)
      2023 – 2025
    • Research Category
      Grant-in-Aid for Scientific Research (C)
    • Review Section
      Basic Section 23020:Architectural environment and building equipment-related
    • Research Institution
      Mukogawa Women's University
  •  Investigation into frost damage mechanisms of masonry buildings using coupled hygrothermal and mechanical simulationsPrincipal Investigator

    • Principal Investigator
      Fukui Kazuma
    • Project Period (FY)
      2021 – 2022
    • Research Category
      Grant-in-Aid for Research Activity Start-up
    • Review Section
      0304:Architecture, building engineering, and related fields
    • Research Institution
      Kobe University
  •  Dynamic mechanism of frost damage on building materials considering supercooling and energy transfer

    • Principal Investigator
      Iba Chiemi
    • Project Period (FY)
      2020 – 2022
    • Research Category
      Grant-in-Aid for Scientific Research (C)
    • Review Section
      Basic Section 23010:Building structures and materials-related
    • Research Institution
      Kyoto University

All 2024 2023 2022 2021

All Journal Article Presentation

  • [Journal Article] Development of pore water pressure during freeze-thaw cycles in weather conditions2024

    • Author(s)
      Fukui Kazuma、Iba Chiemi
    • Journal Title

      Cold Regions Science and Technology

      Volume: 217 Pages: 104044-104044

    • DOI

      10.1016/j.coldregions.2023.104044

    • Peer Reviewed
    • Data Source
      KAKENHI-PROJECT-23K13451
  • [Journal Article] Water transfer in building materials over capillary saturation during freezing2024

    • Author(s)
      Fukui Kazuma、Takada Satoru
    • Journal Title

      Cold Regions Science and Technology

      Volume: 222 Pages: 104199-104199

    • DOI

      10.1016/j.coldregions.2024.104199

    • Peer Reviewed
    • Data Source
      KAKENHI-PROJECT-23K13451
  • [Journal Article] Impact of air entrapment on capillary absorption in porous building materials2024

    • Author(s)
      Fukui Kazuma、Takada Satoru
    • Journal Title

      Journal of Building Physics

      Volume: - Issue: 3 Pages: 318-339

    • DOI

      10.1177/17442591241238437

    • Peer Reviewed
    • Data Source
      KAKENHI-PROJECT-23K13451
  • [Journal Article] Deformation of fired clay material during rapid freezing due to supercooling2023

    • Author(s)
      Kazuma Fukui, Chiemi Iba, Daisuke Ogura
    • Journal Title

      Journal of Building Physics

      Volume: - Issue: 6 Pages: 762-788

    • DOI

      10.1177/17442591231154010

    • Peer Reviewed
    • Data Source
      KAKENHI-PROJECT-20K04789
  • [Journal Article] Coupled hygrothermal and mechanical simulations of highly anisotropic building material during freezing and thawing2023

    • Author(s)
      Kazuma Fukui, Chiemi Iba, Daisuke Ogura
    • Journal Title

      Journal of Building Physics

      Volume: - Issue: 6 Pages: 659-685

    • DOI

      10.1177/17442591231165992

    • Peer Reviewed
    • Data Source
      KAKENHI-PROJECT-20K04789, KAKENHI-PROJECT-21K20462, KAKENHI-PROJECT-22K18492
  • [Journal Article] Investigation into the hygrothermal behavior of fired clay materials during the freezing of supercooled water using experiments and numerical simulations2021

    • Author(s)
      Fukui Kazuma、Iba Chiemi、Taniguchi Madoka、Takahashi Kouichi、Ogura Daisuke
    • Journal Title

      Journal of Building Physics

      Volume: 45 Issue: 6 Pages: 723-756

    • DOI

      10.1177/17442591211041144

    • Peer Reviewed
    • Data Source
      KAKENHI-PROJECT-20K04789
  • [Presentation] 凍結融解が高含水率状態の多孔質建築材料内の水分の分布におよぼす影響2023

    • Author(s)
      福井一真
    • Organizer
      日本建築学会大会
    • Data Source
      KAKENHI-PROJECT-21K20462
  • [Presentation] Water uptake of porous building materials with extremely small air entrapment effects2023

    • Author(s)
      Fukui Kazuma、Takada Satoru
    • Organizer
      13th Nordic Symposium on Building Physics (NSB2023)
    • Int'l Joint Research
    • Data Source
      KAKENHI-PROJECT-23K13451
  • [Presentation] 凍結融解が高含水率状態の多孔質建築材料内の水分の分布におよぼす影響2023

    • Author(s)
      福井一真
    • Organizer
      日本建築学会近畿支部研究発表会
    • Data Source
      KAKENHI-PROJECT-21K20462
  • [Presentation] Water Uptake of Porous Building Materials with Extremely Small Air Entrapment Effects2023

    • Author(s)
      Kazuma Fukui
    • Organizer
      13th Nordic Symposium on Building Physics
    • Int'l Joint Research
    • Data Source
      KAKENHI-PROJECT-21K20462
  • [Presentation] 静電容量を利用した建築材料の含水率の経時変化の測定と凍結した材料への適用可能性2022

    • Author(s)
      福井一真
    • Organizer
      日本建築学会近畿支部研究発表会
    • Data Source
      KAKENHI-PROJECT-21K20462
  • [Presentation] 静電容量を利用した建築材料の含水率の経時変化の測定と凍結した材料への適用可能性2022

    • Author(s)
      福井一真
    • Organizer
      日本建築学会大会
    • Data Source
      KAKENHI-PROJECT-21K20462
  • [Presentation] 凍結融解過程の焼成材料の変形の異方性 熱水分・力学連成解析における物性値の異方性の考慮2021

    • Author(s)
      福井一真,伊庭千恵美,谷口円,高橋光一,小椋大輔
    • Organizer
      日本建築学会大会
    • Data Source
      KAKENHI-PROJECT-20K04789
  • [Presentation] 様々な環境条件における多孔質建築材料内の水分の過冷却解消温度の予測 過冷却解消温度と実験条件の関係についての理論的検討2021

    • Author(s)
      福井一真,伊庭千恵美,谷口円,高橋光一,小椋大輔
    • Organizer
      日本建築学会近畿支部研究発表会
    • Data Source
      KAKENHI-PROJECT-20K04789
  • 1.  Iba Chiemi (10462342)
    # of Collaborated Projects: 2 results
    # of Collaborated Products: 5 results
  • 2.  谷口 円 (20462351)
    # of Collaborated Projects: 1 results
    # of Collaborated Products: 3 results
  • 3.  高橋 光一 (00826787)
    # of Collaborated Projects: 1 results
    # of Collaborated Products: 3 results
  • 4.  高田 暁 (20301244)
    # of Collaborated Projects: 1 results
    # of Collaborated Products: 0 results
  • 5.  宇野 朋子 (90415620)
    # of Collaborated Projects: 1 results
    # of Collaborated Products: 0 results

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