投稿論文一覧
-
- •M. Ohki, S. Takahashi, R. Jinnai, T. Hoshina: Interfacial Strength of
Plasma-sprayed Hydroxyapatite Coatings, Journal of Thermal Spray Technology,
29(5), 1119-1133 (2020.6)
•大木基史, 神内蘭, 星名信輝, 北代翔人, 湯本康太, 齋藤浩: プラズマ溶射ハイドロキシアパタイトコーティング材の界面強度に及ぼす基材表面粗さおよび後熱処理の影響,
溶射, 57(1), 3-12 (2020.1)
•K. FUJISAWA, M. OHKI, and N. FUJISAWA: Influence of surface roughness
on liquid droplet impingement erosion, Wear, 432–433 (2019.8) 202955
•T. ISHIBASHI, Y. YOSHIKAWA, M. YAMAMOTO, K. MIYAHARA, T. YAMAMOTO, M.
OHKI, and S. KATAYAMA: Proposal for ISO 14577: Metallic materials – Instrumented
Indentation test for hardness and materials parameters – Part 1: Test method
(Verification of the calculation of Young's modulus for wide range of materials
and test forces ranging from micro to macro range with data un-calibrated
machine frame compliance in its testing system, Journal of Material Testing
Research Association of JAPAN, 62(3), 20-28 (2017.7)
•T. ISHIBASHI, Y. YOSHIKAWA, S. KATAYAMA, K. MIYAHARA, M. OHKI, T. YAMAMOTO,
and M. YAMAMOTO: Proposal for ISO 14577: Metallic materials – Instrumented
Indentation test for hardness and materials parameters – Part 1: Test method
(Verification of the calculation of Young's modulus for wide range of materials
and test forces with already calibrated machine frame compliance in its
testing system, Journal of Material Testing Research Association of JAPAN,
62(2), 2-11 (2017.4)
•大木基史, 森下一, 高岡謙伍, 齋藤浩: 炭素繊維強化熱可塑性プラスチック材の曲げ試験による機械的特性評価および破壊挙動解析,材料試験技術,
61(3), 43-49 (2016.9)
•基昭夫,神雅彦,大木基史: ヤコウガイ蓋の硬さ特性評価 —琉球列島先史時代遺跡から発掘された貝器の硬さ等に関する一考察—, 材料試験技術,
60(4), 32-37 (2015.10)
•大木基史, 鈴木智之, 齋藤浩: 拡散接合を伴うWC薄膜の形成および機械的特性評価, 材料試験技術, 59(3), 29-39 (2014.7)
•T. ISHIBASHI, Y. YOSHIKAWA, S. KATAYAMA, M. OHKI, S. TAKAGI, T. YAMAMOTO,
K. MIYAHARA and M. YAMAMOTO: Theoretical and Experimental Study on Nanoindentation
Test in Diamond (2nd. Evaluation and discussion about theoretical and experimental
indentation curves for a single crystal Diamond planes (111) and (100),
and confirmation for usefulness of Nanoindentation test), Journal of Material
Testing Research Association of JAPAN, 59(2), 2-16 (2014.4)
•T. ISHIBASHI, Y. YOSHIKAWA, S. KATAYAMA, S. TAKAGI and M. OHKI: Theoretical
and Experimental Study on Nanoindentation Test in Diamond (1st. Comparison
between theoretical and experimental indentation curves for Diamond and
those for Tungsten and Fused silica), Journal of Material Testing Research
Association of JAPAN, 58(2), 15-22 (2013.4)
•大木基史, 青木翔, 矢野勝三, 齋藤浩: プラズマ溶射ハイドロキシアパタイトコーティング材のスクラッチ試験による密着性評価, 材料試験技術,
58(1), 3-11 (2013.1)
•M. OHKI, T. ISHIBASHI, S. KATAYAMA, S. TAKAGI, Y. YOSHIKAWA, M. FUJITSUKA
and S. IWATSUBO: Proposal for ISO 14577: Metallic materials – Instrumented
Indentation test for hardness and materials parameters – Part 1: Test method
(3rd. Influence on computed Young’s modulus by different indenter’s tip
profile and material property), Journal of Material Testing Research Association
of JAPAN, 57(4), 140-149 (2012.10)
•T. ISHIBASHI, M. OHKI, S. TAKAGI, Y. YOSHIKAWA, S. KATAYAMA, S. IWATSUBO
and M. FUJITSUKA: Proposal for ISO 14577: Metallic materials – Instrumented
Indentation test for hardness and materials parameters – Part 1: Test method
(1st. Re-evaluation of unloading curve’s profile at neighborhood of unloading
starting point and discussion of real maximum contact depth), Journal of
Material Testing Research Association of JAPAN, 56(2), 54-63 (2011.4)
•M. OHKI, T. ISHIBASHI, S. TAKAGI, Y. YOSHIKAWA, S. KATAYAMA, S. IWATSUBO
and M. FUJITSUKA: Proposal for ISO 14577: Metallic materials – Instrumented
Indentation test for hardness and materials parameters – Part 1: Test method
(2nd. Discussion for relationships between maximum projected area and real
maximum contact depth, and computing method of Young’s modulus based on
area function for the relationships), Journal of Material Testing Research
Association of JAPAN, 56(2), 64-75 (2011.4)
•大木基史, 石橋達弥: 計装化押込み試験によるしゃ熱コーティング材のトップコートヤング率評価, 材料試験技術, 55(2), 11-19 (2010)
•本宮嘉弘, 石橋達弥, 大木基史, 山内春夫: 自動車シートの座面強度の実験的・理論的解析, 材料試験技術, 55(2), 26-32 (2010)
•本宮嘉弘, 石橋達弥, 山内春夫, 大木基史: シート座面強度とシートベルト損傷との関係, 自動車技術会論文集,40(2), 269-275
(2009)
•大木基史, 石橋達弥, 鈴木亘, 荒井実里: HOT-DIPすずめっき材の中間合金層成長および密着性評価, 材料試験技術, 54(2), 26-33
(2009)
•吉川裕輔, 石橋達弥, 片山繁雄, 大木基史, 高木智史: 弾性接触近傍を含む超微小押込み深さ領域における各種マイクロビッカース硬さ基準片(HMV)の特性,
材料試験技術, 54(2), 74-84, (2009)
•本宮嘉弘, 石橋達弥, 山内春夫, 大木基史: 衝突実験によるシート座面変形とシートベルト損傷に関する研究−シート座面強度に関する安全規準の提案−,
日本交通科学協議会誌,9(1), 25-34 (2009)
•大木基史, 石橋達弥, 吉川裕輔: 島津超微小ダイナミック硬度計DUH-201Sとダイヤモンド球状圧子を併用したマイクロレンジ押込み試験によるヤング率評価,
材料試験技術, 53(2), 93-100 (2008)
•Y. YOSHIKAWA, T. ISHIBASHI, S. KATAYAMA, M. OHKI and S. TAKAGI: Practical
Nanoindentation Theory and Experiments of the Pyramidal Indenter (11th.
Exact quantification method of profile coefficients for Microvickers nanoindentation
indenter’s tip profile using corresponding ball diameter function), Journal
of Material Testing Research Association of JAPAN, 53(2), 101-107 (2008)
•T. ISHIBASHI, Y. YOSHIKAWA, M. OHKI, M. FUJITSUKA and S. TAKAGI: Practical
Nanoindentation Theory and Experiments of the Pyramidal Indenter (10th.
Exact relationships and equations of contact depths for the conical indenter
in ISO14577-1, and comparisons of ε values between ISO and authors for
ball and conical indenter), Journal of Material Testing Research Association
of JAPAN, 52(2), 25-31 (2007)
•T. ISHIBASHI and M. OHKI: Practical Nanoindentation Theory and Experiments
of the Pyramidal Indenter (9th. Exact relationships and equations of contact
depths for the rounded tip of pyramidal indenter and/or ball indenter in
ISO 14577-part1), Journal of Material Testing Research Association of JAPAN,
51(2), 55-61 (2006)
•M. OHKI, T. ISHIBASHI and J. KINOSHITA: Influence of Load Dependency and
Coating Anisotropy on Calculated Young's Modulus of TBCs by Indentation
Test, Materials Transactions, 47(4), 1170-1177 (2006)
•T. ISHIBASHI, M. OHKI, S. KATAYAMA and S. TAKAGI: Practical Nanoindentation
Theory and Experiments of the Pyramidal Indenter (7th. AFM profiles of
Microvickers indenter tip and elastic indentation equations between the
hyperboloid of revolution indenter and plane specimen), Journal of Material
Testing Research Association of JAPAN, 50(2), 35-42 (2005)
•T. ISHIBASHI, M. OHKI, S. KATAYAMA and S. TAKAGI: Practical Nanoindentation
Theory and Experiments of the Pyramidal Indenter (8th. Elastic indentation
experiments with truncated Microvickers indenter and comparison between
experimental results and calculated values using elastic indentation equations),
Journal of Material Testing Research Association of JAPAN, 50(2), 43-49
(2005)
•大木基史, 石橋達弥, 鈴木隆之, 高橋雅士: 押込み試験方式を利用したしゃ熱コーティング材のヤング率測定法, 溶射, 41(4), 152-159
(2004)
•T. ISHIBASHI, M. OHKI, S. TAKAGI and M. FUJITSUKA: Practical Nano-indentation
Theory and Experiments of the Pyramidal Indenter (5th. Comparison between
the calculated truncation length of the Berkovich indenter tip with the
expanded nano-indentation theory and that with the AFM testing), Journal
of Material Testing Research Association of JAPAN, 49(2), 25-32 (2004)
•M. OHKI, T. ISHIBASHI, S. TAKAGI and M. FUJITSUKA: Practical Nano-indentation
Theory and Experiments of the Pyramidal Indenter (6th. Influence of the
geometrical shape of a triangular pyramid indenter on the hardness value
HIBerko. during indentation over the wide load ranging from 0.2 mN to 2000
mN), Journal of Material Testing Research Association of JAPAN, 49(2),
33-40 (2004)
•M. FUJITSUKA, T. ISHIBASHI, M. OHKI: Practical Nano-indentation Theory
and Experiments of the Pyramidal Indenter (3rd. Expanded Theory to High
Elastic Material Using Tester with Linear Elastic Deformation), Journal
of Material Testing Research Association of JAPAN, 48(2), 22-30 (2003)
•H. AMANO, T. ISHIBASHI, M. OHKI, H. SAKURAI, M. FUJITSUKA: Indentation
Theory and Experiments of the Truncated Conical Indenter (2nd. Experiments
and Confirmation of the Extended Indentation Theory Over the Wide Load
Range Using the Instrumented Universal Indentation Tester & Rockwell
Hardness Tester), Journal of Material Testing Research Association of JAPAN,
48(3), 9-16 (2003)
•M. FUJITSUKA, T. ISHIBASHI, M. OHKI: Practical Nano-indentation Theory
and Experiments of the Pyramidal Indenter (4th. Application of the expanded
theory to the wide load ranging from 0.98mN to 980mN), Journal of Material
Testing Research Association of JAPAN, 48(3), 17-25 (2003)
•大木基史, 石橋達弥, 宮路葉, 初谷栄治, 天野裕久, 中福頼綱: 超微小硬さ試験機を利用したHOT-DIPすずめっきの膜厚測定, 銅と銅合金,
42(1), 188-192 (2003)
•T. ISHIBASHI, M. FUJITSUKA, H. AMANO, M. OHKI: Practical Nano-indentation
Theory and Experiments of the Pyramidal Indenter (2nd. Experiments of the
triangular pyramidal indenter and implementation of the theory), Journal
of Material Testing Research Association of JAPAN, 47(1), 8-17 (2002)
•T. ISHIBASHI, M. FUJITSUKA, M. OHKI: Practical Nano-indentation Theory
and Experiments of the Pyramidal Indenter (1st. Theoretical Equation Including
Both Terms about the Elastic Deformation of the Tester and the Truncation
of the Round Tip), Journal of Material Testing Research Association of
JAPAN, 46(3), 2-10 (2001)
•大木基史, 武藤睦治, 高橋雅士, 石橋達弥: 傾斜組成しゃ熱コーティングの熱サイクル損傷特性, 溶射, 38(4), 190-199 (2001)
•M. OHKI, T. C. HWU and Y. MUTOH: Thermal Cycle Damage of Wear – Resistant
Ceramic Coatings, Transactions of the Indian Institute of Metals, Vol.
53, No. 3, 135-140 (2000)
•T. ISHIBASHI, S. SUKIGARA, M. OHKI, M. FUJITSUKA: Indentation Theory of
the Round Tip Triangular Pyramidal Indenter Neglective Elastic Deformation
of the Indenter's Holding Part, Journal of Material Testing Research Association
of JAPAN, 45(3), 16-24 (2000)
•大木基史, タン・チェク・フウ, 武藤睦治, 北英紀, 海野泰明: 耐摩耗プラズマ溶射セラミックコーティングの熱サイクル損傷特性, 溶射,
36(1), 12-19 (1999)
•石橋達弥, 鋤柄佐千子, 大木基史: 球圧子の押込み理論を基礎とした角錐圧子の押込みに関する研究(第2報, ISO提案式も含めた鈍角な頂角を持つ角錐圧子の押込みを利用したヤング率算出理論式に関する検討),
材料試験技術, 44(3), 19-23 (1999)
•石橋達弥, 鋤柄佐千子, 大木基史: 球圧子の押込み理論を基礎とした角錐圧子の押込みに関する研究(第1報, 三角錐圧子の極微小押込み理論式),
材料試験技術, 43(3), 22-28 (1998)
•大木基史, 武藤睦治, 大原稔, 高橋雅士, 石橋達弥: 遮熱コーティング材の熱サイクル損傷および遮熱特性, 溶接学会論文集, 16(3),
395-404 (1998)
•大木基史, 武藤睦治, 東和田隆司, 足立茂, 高橋雅士: 傾斜機能しゃ熱コーティング材の真空中における熱サイクル損傷特性, 材料, 46(8),
939-945 (1997)
-
-