FURUYA Yoshiyuki 古谷佳之

… Alternative Names

古谷佳之フルヤヨシユキ

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Researcher Number	60354255
Other IDs
Affiliation (Current)	2025: 国立研究開発法人物質・材料研究機構, 構造材料研究センター, グループリーダー
Affiliation (based on the past Project Information) *help	2024 – 2025: 国立研究開発法人物質・材料研究機構, 構造材料研究センター, グループリーダー 2018 – 2023: 国立研究開発法人物質・材料研究機構, 構造材料研究拠点, グループリーダー 2015 – 2016: 国立研究開発法人物質・材料研究機構, 構造材料研究拠点疲労特性グループ, 主幹研究員 2012: 独立行政法人物質・材料研究機構, 材料信頼性評価ユニット, 主幹研究員 2011 – 2012: 独立行政法人物質・材料研究機構, その他部局等, 研究員 2010: National Institute for Materials Science, 材料信頼性センター, 主幹研究員 2009: National Institute for Materials Science, 材料信頼性センター, 主任研究員
Review Section/Research Field	Principal Investigator Materials/Mechanics of materials Except Principal Investigator Basic Section 18010:Mechanics of materials and materials-related / Medium-sized Section 18:Mechanics of materials, production engineering, design engineering, and related fields
Keywords	Principal Investigator ギガサイクル疲労 / 疲労 / 介在物 / 高強度鋼 / 内部き裂 / 内部破壊 / 装置開発 / 高温 / 超音波疲労試験 Except Principal Investigator 残留応力 … More / ピーニング / き裂伝搬 / き裂進展 / 放射光 / 真空 / 内部起点型破壊 / ギガサイクル疲労 / 内部欠陥 / 表面粗さ / 金属疲労 / 超高サイクル疲労 / 高強度鋼 / 圧縮残留応力 / 超音波疲労試験 / 超高サイクル疲労強度 / 3D積層造形 / き裂発生 / き裂伝播 / 疲労 Less

Improvement of very high cycle fatigue strength of additive manufactured metal by controlling surface roughness and internal defects
- Principal Investigator
  
  高橋宏治
- Project Period (FY)
  2025 – 2027
- Research Category
  
  Grant-in-Aid for Scientific Research (B)
- Review Section
  
  Basic Section 18010:Mechanics of materials and materials-related
- Research Institution
  Yokohama National University
Improvement of very high cycle fatigue strength of high-strength steel made by additive manufacturing
- Principal Investigator
  
  高橋宏治
- Project Period (FY)
  2022 – 2024
- Research Category
  
  Grant-in-Aid for Scientific Research (B)
- Review Section
  
  Basic Section 18010:Mechanics of materials and materials-related
- Research Institution
  Yokohama National University
超高サイクル疲労における内部起点型破壊評価手法の確立
- Principal Investigator
  
  中村孝
- Project Period (FY)
  2021 – 2024
- Research Category
  
  Grant-in-Aid for Scientific Research (A)
- Review Section
  
  Medium-sized Section 18:Mechanics of materials, production engineering, design engineering, and related fields
- Research Institution
  Hokkaido University
Elucidation of the mechanism of very high cycle fatigue and the development of its evaluation method based on synchrotron radiation micro/nano- CT
- Principal Investigator
  
  Nakamura Takashi
- Project Period (FY)
  2018 – 2021
- Research Category
  
  Grant-in-Aid for Scientific Research (A)
- Review Section
  
  Medium-sized Section 18:Mechanics of materials, production engineering, design engineering, and related fields
- Research Institution
  Hokkaido University
ナノビーチマーク法によるギガサイクル疲労の定式化Principal Investigator
- Principal Investigator
  
  古谷佳之
- Project Period (FY)
  2015 – 2016
- Research Category
  
  Grant-in-Aid for Scientific Research (C)
- Research Field
  
  Materials/Mechanics of materials
- Research Institution
  National Institute for Materials Science
Elucidation of gigacycle fatigue mechanism of high-strength steel using a nano beach mark methodPrincipal Investigator
- Principal Investigator
  
  FURUYA Yoshiyuki
- Project Period (FY)
  2011 – 2012
- Research Category
  
  Grant-in-Aid for Young Scientists (B)
- Research Field
  
  Materials/Mechanics of materials
- Research Institution
  National Institute for Materials Science
Development of an ultrasonic fatigue testing machine at high temperature up to 1000℃Principal Investigator
- Principal Investigator
  
  FURUYA Yoshiyuki
- Project Period (FY)
  2009 – 2010
- Research Category
  
  Grant-in-Aid for Young Scientists (B)
- Research Field
  
  Materials/Mechanics of materials
- Research Institution
  National Institute for Materials Science

All 2023 2022 2021 2020 2019 2016 2013 2012 2011

All Journal Article Presentation Patent

[Journal Article] Gigacycle fatigue of high-strength steel caused by MnS inclusions2021
- Author(s)
  Furuya Yoshiyuki
- Journal Title
  
  Materials Science and Engineering: A
  
  Volume: 824 Pages: 141840-141840
- DOI
  10.1016/j.msea.2021.141840
- Peer Reviewed
- Data Source
  KAKENHI-PROJECT-21H04529
[Journal Article] SCM440鋼のギガサイクル疲労特性に及ぼすMnSの影響2020
- Author(s)
  古谷佳之
- Journal Title
  
  鉄と鋼
  
  Volume: 106 Issue: 11 Pages: 799-806
- DOI
  10.2355/tetsutohagane.tetsu-2020-051
- NAID
  130007932329
- Peer Reviewed / Open Access
- Data Source
  KAKENHI-PROJECT-18H03748
[Journal Article] 10<sup>11</sup>-cycle Gigacycle Fatigue Properties of High-strength Steel2019
- Author(s)
  古谷佳之
- Journal Title
  
  Tetsu-to-Hagane
  
  Volume: 105 Issue: 12 Pages: 1173-1178
- DOI
  10.2355/tetsutohagane.TETSU-2019-071
- NAID
  130007753127
- ISSN
  0021-1575, 1883-2954
- Language
  Japanese
- Peer Reviewed
- Data Source
  KAKENHI-PROJECT-18H03748
[Journal Article] A new model for predicting the gigacycle fatigue strength of high-strength steels2019
- Author(s)
  Y. Furuya
- Journal Title
  
  Materials Science & Engineering A
  
  Volume: 743 Pages: 445-452
- DOI
  10.1016/j.msea.2018.11.109
- Peer Reviewed
- Data Source
  KAKENHI-PROJECT-18H03748
[Journal Article] 高強度鋼の超高サイクル疲労における疲労限2019
- Author(s)
  古谷佳之
- Journal Title
  
  日本機械学会M&M2019 材料力学カンファレンス講演論文集
  
  Volume: -
- NAID
  130007846498
- Data Source
  KAKENHI-PROJECT-18H03748
[Journal Article] Proposal for Predictions of Gigacycle Fatigue Strength in High-strength Steel2016
- Author(s)
  古谷佳之
- Journal Title
  
  Tetsu-to-Hagane
  
  Volume: 102 Issue: 7 Pages: 415-422
- DOI
  10.2355/tetsutohagane.TETSU-2016-002
- NAID
  130005159408
- ISSN
  0021-1575, 1883-2954
- Language
  Japanese
- Peer Reviewed / Acknowledgement Compliant
- Data Source
  KAKENHI-PROJECT-15K05705
[Journal Article] Small internal fatigue crack growth rate measured by beach marks2016
- Author(s)
  Yoshiyuki Furuya
- Journal Title
  
  Materials Science & Engineering A
  
  Volume: 678 Pages: 260-266
- DOI
  10.1016/j.msea.2016.09.109
- Peer Reviewed / Acknowledgement Compliant
- Data Source
  KAKENHI-PROJECT-15K05705
[Journal Article] Gigacycle Fatigue Properties of Double-Melted SCM440 Steel and Size Effects2013
- Author(s)
  古谷佳之
- Journal Title
  
  Tetsu-to-Hagane
  
  Volume: 99 Issue: 5 Pages: 373-379
- DOI
  10.2355/tetsutohagane.99.373
- NAID
  130003372538
- ISSN
  0021-1575, 1883-2954
- Language
  Japanese
- Peer Reviewed
- Data Source
  KAKENHI-PROJECT-23760106
[Patent] 高温条件下での超音波疲労試験法及び試験装置2011
- Inventor(s)
  古谷佳之
- Industrial Property Rights Holder
  独立行政法人物質・材料研究機構
- Industrial Property Number
  2011-029557
- Filing Date
  2011-02-15
- Data Source
  KAKENHI-PROJECT-21760089
[Presentation] 3D積層造形したマルエージング鋼の超高サイクル領域における疲労強度特性2023
- Author(s)
  岩坂明彦,中村元哉,高橋宏治,古谷佳之
- Organizer
  M&M2023材料力学カンファレンス
- Data Source
  KAKENHI-PROJECT-23K22627
[Presentation] 3D積層造形したマルエージング鋼の超高サイクル領域における回転曲げ疲労強度特性2023
- Author(s)
  中村元哉,岩坂明彦,高橋宏治,古谷佳之
- Organizer
  2023年度春季「ばね及び復元力応用講演会」
- Data Source
  KAKENHI-PROJECT-23K22627
[Presentation] MnS を起点としたSCM440 鋼のギガサイクル疲労2022
- Author(s)
  古谷佳之
- Organizer
  日本鉄鋼協会第184回秋季講演大会
- Data Source
  KAKENHI-PROJECT-21H04529
[Presentation] 高強度鋼の超高サイクル疲労における疲労限2019
- Author(s)
  古谷佳之
- Organizer
  日本機械学会M&M材料力学カンファレンス
- Data Source
  KAKENHI-PROJECT-18H03748
[Presentation] 高強度鋼に対する10^11回ギガサイクル疲労試験2019
- Author(s)
  古谷佳之
- Organizer
  日本鉄鋼協会秋季講演大会
- Data Source
  KAKENHI-PROJECT-18H03748
[Presentation] SCM440鋼ダブルメルト材のギガサイクル疲労特性2012
- Author(s)
  古谷佳之
- Organizer
  日本鉄鋼協会　第164回秋季講演大会
- Place of Presentation
  愛媛大学
- Data Source
  KAKENHI-PROJECT-23760106
[Presentation] SCM440 鋼ダブルメルト材のギガサイクル疲労特性2012
- Author(s)
  古谷佳之
- Organizer
  日本鉄鋼協会第164回秋季講演大会
- Place of Presentation
  愛媛大学
- Year and Date
  2012-09-17
- Data Source
  KAKENHI-PROJECT-23760106
[Presentation] 高清浄度鋼のギガサイクル疲労における寸法効果2012
- Author(s)
  古谷佳之
- Organizer
  日本機械学会 2012年度年次大会
- Place of Presentation
  金沢大学
- Year and Date
  2012-09-10
- Data Source
  KAKENHI-PROJECT-23760106
[Presentation] 高清浄度鋼のギガサイクル疲労における寸法効果2012
- Author(s)
  古谷佳之
- Organizer
  日本機械学会　2012年度年次大会
- Place of Presentation
  金沢大学
- Data Source
  KAKENHI-PROJECT-23760106

1. Nakamura Takashi (30237408)

# of Collaborated Projects: 2 results

# of Collaborated Products: 0 results
2. 戸田裕之 (70293751)

# of Collaborated Projects: 2 results

# of Collaborated Products: 0 results
3. 藤村奈央 (40732988)

# of Collaborated Projects: 2 results

# of Collaborated Products: 0 results
4. 竹内晃久 (70426526)

# of Collaborated Projects: 2 results

# of Collaborated Products: 0 results
5. 上杉健太朗 (80344399)

# of Collaborated Projects: 2 results

# of Collaborated Products: 0 results
6. 小熊博幸 (80515122)

# of Collaborated Projects: 2 results

# of Collaborated Products: 0 results
7. 高橋宏治 (90334630)

# of Collaborated Projects: 2 results

# of Collaborated Products: 2 results
8. 上椙真之 (20426521)

# of Collaborated Projects: 1 results

# of Collaborated Products: 0 results

FURUYA Yoshiyuki 古谷 佳之

古谷 佳之 フルヤ ヨシユキ

Research Projects

Research Products

Co-Researchers

Improvement of very high cycle fatigue strength of additive manufactured metal by controlling surface roughness and internal defects

Principal Investigator

Project Period (FY)

Research Category

Review Section

Research Institution

Improvement of very high cycle fatigue strength of high-strength steel made by additive manufacturing

Principal Investigator

Project Period (FY)

Research Category

Review Section

Research Institution

超高サイクル疲労における内部起点型破壊評価手法の確立

Principal Investigator

Project Period (FY)

Research Category

Review Section

Research Institution

Elucidation of the mechanism of very high cycle fatigue and the development of its evaluation method based on synchrotron radiation micro/nano- CT

Principal Investigator

Project Period (FY)

Research Category

Review Section

Research Institution

ナノビーチマーク法によるギガサイクル疲労の定式化Principal Investigator

Principal Investigator

Project Period (FY)

Research Category

Research Field

Research Institution

Elucidation of gigacycle fatigue mechanism of high-strength steel using a nano beach mark methodPrincipal Investigator

Principal Investigator

Project Period (FY)

Research Category

Research Field

Research Institution

Development of an ultrasonic fatigue testing machine at high temperature up to 1000℃Principal Investigator

Principal Investigator

Project Period (FY)

Research Category

Research Field

Research Institution

[Journal Article] Gigacycle fatigue of high-strength steel caused by MnS inclusions2021

Author(s)

Journal Title

DOI

Data Source

[Journal Article] SCM440鋼のギガサイクル疲労特性に及ぼすMnSの影響2020

Author(s)

Journal Title

DOI

NAID

Data Source

[Journal Article] 10<sup>11</sup>-cycle Gigacycle Fatigue Properties of High-strength Steel2019

Author(s)

Journal Title

DOI

NAID

ISSN

Language

Data Source

[Journal Article] A new model for predicting the gigacycle fatigue strength of high-strength steels2019

Author(s)

Journal Title

DOI

Data Source

[Journal Article] 高強度鋼の超高サイクル疲労における疲労限2019

Author(s)

Journal Title

NAID

Data Source

[Journal Article] Proposal for Predictions of Gigacycle Fatigue Strength in High-strength Steel2016

Author(s)

Journal Title

DOI

FURUYA Yoshiyuki 古谷佳之

古谷佳之フルヤヨシユキ