KISHIMOTO Yoshihiko

写真a

Search Institutional Repository


Title

Associate Professor

Laboratory location

Sugimoto Campus

Mail Address

E-mail address

Degree 【 display / non-display

  • Kyoto University -  Doctor (Engineering)

Research Areas 【 display / non-display

Architectural environment/Equipment, Building structures/Materials

Association Memberships 【 display / non-display

  • Architectural Institute of Japan

  • Society of Heating, Air-conditioning and Sanitary Engineering of Japan

  • Japan Concrete Institute

  • Japan Society of Civil Engineers

Committee Memberships 【 display / non-display

  • 2018.01
    -
    Today

    CIB W80 (Prediction of Service Life of Building Materials and Components)  

  • 2010.08
    -
    2012.09

    International Association of Building Physics, IBPC Executive Committee  

  • 2010.08
    -
    2011.08

    5th International Symposium between Japan, China and Korea, Performance Improvement of Concrete for Long life span Structure  

Current Career 【 display / non-display

  • Osaka City University   Graduate School of Engineering   Urban Engineering Course   Associate Professor  

Graduate School 【 display / non-display

  • 1998.04
    -
    2005.03

    Kyoto University  Graduate School, Division of Engineering 

  • 1996.04
    -
    1998.03

    Kinki University  Graduate School, Division of Engineering 

Graduating School 【 display / non-display

  • 1992.04
    -
    1996.03

    Kinki University   Faculty of Science and Engineering  

 

Published Papers 【 display / non-display

  • Study on Prediction Analytical Model for Frozen Water Volume of Small Continuum Based on Probability Distribution of Supercooling Small Elements

    Yoshihiko Kishimoto

    Proceedings of the Japan Concrete Institute  41 ( 1 ) 845 - 850 2019.07  [Refereed]

  • Thermodynamic Non-Equilibrium Prediction Model for Frozen Water Volume of Small Continuum Based on Probability Distribution of Supercooling

    Yoshihiko Kishimoto, Kouichi Takahashi, and Ayana Mitsumoto

    Joint Seminar on Environmental Science and Disaster Mitigation Research 2018    1066 - 1071 2018.03

  • Investigation Based on Measurement of Probability Distribution of Supercooling Phenomenon to Establish a Prediction Method for Frost Damage of Concrete Structure

    Kouichi Takahashi, Yoshihiko Kishimoto, Hyeonggil Choi, Yukio Hama

    Joint Seminar on Environmental Science and Disaster Mitigation Research 2017    71 - 72 2017.03

  • Fundamental study on probabilistic prediction method for frost damage of concrete structure

    Takahashi, K., Kishimoto, Y., Hama, Y.

    7th Forum on Studies of the Environmental and Public Health Issues in the Asian Mega-cities    164 - 165 2016.09

  • Study on influence of independent variables on probability distributions of freezing point and instantaneous increment of ice content due to supercooling in mortar

    Kouichi TAKAHASHI, Yoshihiko KISHIMOTO, Yukio HAMA

    Proceedings of 11th International Symposium between Korea, China and Japan on Performance Improvement of Concrete for Long Life Span Structure    120 - 125 2016.08

display all >>

Books etc 【 display / non-display

  • 室蘭工大 未来をひらく技術と研究

    Yoshihiko Kishimoto (Part: Contributor )

    2014.07

Review Papers (Misc) 【 display / non-display

  • Effective Application of Ad- and Desorption material Based on Actual Usage of Cooling and Heating for Residential Houses in Cold District

    Yoshihiko Kishimoto

      135 - 140 2018.10

  • Various Effective Utilization of Hygroscopic Materials and Evaluation Method

    Yoshihiko Kishimoto

      3 - 6 2014.10

  • Moisture Control and Energy Consumption under Combination Use of Active and Passive Hygroscopic Methods

      163 - 169 2010.10

  • International Conference on Durability of Concrete Structure 2008"参加報告"

    Concrete journal  47 ( 4 ) 51 - 52 2009.04

  • Simple Estimation Method of Thermal Performance in Detached Houses

      57 - 64 2007.12

display all >>

Conference Activities & Talks 【 display / non-display

  • Study on Evaluation Method for Effective Application of Ad- and Desorption material Based on Actual Usage of Cooling and Heating for Residential Houses Part 1 Investigation on Standard Calculation Conditions of Cooling and Heating equipment in the Muroran City as Cold District

    Yoshihiko Kishimoto

    2019.09 

  • Investigation on Determinants of Heating On/Off Control at Residential Houses in Muroran City

    Yoshihiko Kishimoto

    2019.09 

  • Fundamental Study on Prediction Model for Progress of Frost Damage with Change of Pore Structure

    Yoshihiko Kishimoto

    2019.06 

  • THE ROLE OF DEGREE OF PRESTRESSING ON SHEAR CRACKING STRENGTH IN CONCRETE DEEP BEAMS WITH PARTIAL PRESTRESSING

    Mohamed Zakaria, Yoshihiko Kishimoto, Yukio Hama

    日本建築学会北海道支部研究報告会  (北海道・北海道立総合研究機構建築研究本部北方建築総合研究所)  2012.06  日本建築学会北海道支部

  • Study on Influence of Infiltration Depth of Surface Treatement Material on Freezing Behavior and Mechanism Accelerating Scaling in Concrete

    Yoshihiko Kishimoto, Yukio Hama, Mohamed Zakaria

    Microdurability  (Netherlands・Amsterdam)  2012.04  RILEM

display all >>

Grant-in-Aid for Scientific Research 【 display / non-display

  • Establishment of Thermodynamic Non-Equilibrium Prediction Model for Frozen Water Volume Based on Probability Distribution of Supercooling

    Project/Area Number : 15K06319  Grant-in-Aid for Scientific Research(C) Representative

    Project Year :

    2015.04
    -
    2018.03
     

     View Summary

    In order to predict the probability of frost damage at actual structure, this study aims to establish a thermodynamic non-equilibrium prediction model for frozen water volume taking supercooling phenomenon into account.
    First, the measurement to obtain the probability distributions of the freezing point and the instantaneous increment of ice content in the small element was carried out. Next, the investigation object was shifted to the small element continuum, the similar experiment to obtain the probability distributions was carried out. Finally, it had been verified that the proposed prediction model based on the probability distribution in the small element can be applied for the small element continuum from viewpoint of durability prediction.

  • Development of non-air entrainment and internal hydrophobic porous powder for high performance of concrete

    Project/Area Number : 24656318  Grant-in-Aid for challenging Exploratory Research Partaker / Other

    Project Year :

    2012.04
    -
    2014.03
     

    Partaker : KISHIMOTO Yoshihiko, ATARASHI Daiki

     View Summary

    In this study, the aim is to develop a non-air entrainment and internal hydrophobic porous powder in order to establish a new technique which can contribute to improve the frost resistance and reduce the strength reduction due to entrained air bubbles caused in AE concrete.
    As a result, when ALC was used for the material of the porous powder, it was possible to control the water repellency and the adsorption properties of water vapor by changing the addition rate and type of silicone oil, ultraviolet treatment and adsorption of hydrophilic agent to the powder surface. But it was difficult to make a porous powder having hybrid properties of the hydrophilic surface and internal hydrophobic capillary.
    On the other hand, when the hardened cement paste with low W/C was used for the material of the porous powder, even without water repellency, there was no air-entraining and it was possible to reduce the strength reduction and improve the frost resistance of mortar.

  • A Study on Interaction between Freezing and Thawing Behavior and Moisture Transfer Properties of Buiding Wall

    Project/Area Number : 22760435  Grant-in-Aid for Young Scientists(B) Representative

    Project Year :

    2010
    -
    2011
     

     View Summary

    The aim of this study was to establish an analytical model taking into account the interaction between micro-cracking and moisture transfer properties as a part of development of durability prediction method for building wall. It was investigated that the interaction under freezing-thawing process based on the result of gamma-ray irradiation experiment and analytical result by using three-phase equilibrium heat and moisture transfer equation.

  • Improvement of relaxation of frost hydraulic pressure and mechanical properties of concrete by water-repellent high strength ceramics

    Project/Area Number : 21360259  Grant-in-Aid for Scientific Research(B) Partaker / Other

    Project Year :

    2009
    -
    2011
     

    Partaker : ATARASHI Daiki, KISHIMOTO Yoshihiko

     View Summary

    The aim of this study was to develop the new technology which can reduce the decrease of strength by entrapped air in AE concrete and contribute the improvement of frost resistance of concrete. The concept of this technology is that the high strength and water-repellent ceramic porous powder which have similar pore structure to concrete would be able to relieve the hydraulic pressure during freezing. Because the vacant capillary pore of powder would play a role of air void entrained by AE agent. It was clarified that the porous powder can improve the frost resistance of concrete ; however, it cannot reduce the decrease of strength because it has air entraining property due to water-repellency on the surface. Therefore, it is necessary to develop the high strength porous powder which is hydrophobic in the pore and hydrophilic on the surface in order to improve the problem.