九州大学 研究者情報
論文一覧
濱田 繁(はまだ しげる) データ更新日:2018.01.15

准教授 /  工学研究院 機械工学部門 材料力学講座


原著論文
1. 松岡 三郎, 松永久生, 山辺 純一郎, 濱田 繁, 飯島 高志, 115MPa水素ガス中での低合金鋼SCM435とSNCM439の各種強度特性および設計指針の提案, 日本機械学会論文集, 10.1299/transjsme.17-00264, 83, 854, 17-00264, 2017.10.
2. Bochuan LI, Motomichi Koyama, Shigeru HAMADA, Hiroshi Noguchi, Threshold Stress Intensity Factor Range of a Mechanically-long and Microstructually-short Crack Perpendicular to an Interface with Plastic Mismatch, Engineering Fracture Mechanics, 10.1016/j.engfracmech.2017.07.023, 182, 287-302, 2017.08.
3. Koki TAZOE, Shigeru HAMADA, Hiroshi NOGUCHI, Fatigue crack growth behavior of JIS SCM440 steel near fatigue threshold in 9-MPa hydrogen gas environment, International Journal of Hydrogen Energy, 42, 13158-13170, 2017.05.
4. Naoki FUKUMURA, Bochuan LI, Motomichi Koyama, Tomohiro SUZUKI, Shigeru HAMADA, Kaneaki Tsuzaki, Hiroshi Noguchi, Material Property Controlling Non-propagating Fatigue Crack Length of Mechanically and Physically Short-Crack Based on Dugdale-model Analysis, Theoretical and Applied Fracture Mechanics, 2017.04.
5. 松岡 三郎, 濱田 繁, 井藤賀 久岳, 中村 眞実, 岡﨑 三郎, 松永久生, 70MPa水素ステーション実証試験で使用されたプレクーラー冷却パイプの事例解析, 日本機械学会論文集, 10.1299/transjsme.16-00459, 83, 848, 2017.04.
6. Shigeru HAMADA, Masaki NAKANISHI, Tsuyoshi MORIYAMA, Hiroshi NOGUCHI, Re-Examination of Correlation between Hardness and Tensile Properties by Numerical Analysis, Experimental Mechanics, 2017.03.
7. Yasuaki HAMANO, Motomichi Koyama, Shigeru HAMADA, Hiroshi Noguchi, Notch Sensitivity of the Fatigue Limit in High-Strength Steel, ISIJ International, 56, 8, 1480-1486, 2016.08.
8. 松岡 三郎, 佐藤 豊幸, 山口 則和, 濱田 繁, 中村 眞実, 松永 久生, -45°C,106 MPa水素ガス中におけるオーステナイト系ステンレス鋼溶接金属のSSRT特性, 日本機械学会論文集, 82, 839, 16-00109, 2016.07.
9. Shigeru HAMADA, Shogo KASHIWA, Hiroshi Noguchi, Measurement Local Mechanical Properties Using Multiple Indentations by a Special Conical Indenter and Error Analysis, Journal of Materials Research, 10.1557/jmr.2015.383, 31, 2, 259-273, 2016.02.
10. 濱野 泰明, 小山 元道, 濱田 繁, 野口 博司, 高強度鋼の疲労限度における切欠き敏感性について, 鉄と鋼, 101, 10, 552-558, 2015.10.
11. Daisuke SASAKI, Motomichi Koyama, Shigeru HAMADA, Hiroshi Noguchi, Tensile Properties of Precracked Tempered Martensitic Steel Specimens Tested at Ultralow Strain Rates in High-PressureHydrogen Atmosphere, Philosophical Magazine Letters, 10.1080/09500839.2015.1049574, 95, 5, 260-268, 2015.06.
12. Na-oki FUKUMURA, Tomohiro SUZUKI, Shigeru HAMADA, Kaneaki Tsuzaki, Hiroshi Noguchi, Mechanical Examination about Crack Length Dependency and Material Dependency of Threshold Stress Intensity Factor Range with Dugdale Model
, Engineering Fracture Mechanics, http://dx.doi.org/10.1016/j.engfracmech.2015.01.003, 135, 168-186, 2015.02.
13. Junichiro YAMABE, Hisao MATSUNAGA, Yoshiyuki FURUYA, Shigeru HAMADA, Hisatake ITOGA, Michio YOSHIKAWA, Etsuo TAKEUCHI, Saburo MATSUOKA, Qualification of chromium-molybdenum steel based on the safety factor multiplier method in CHMC1-2014, International Journal of Hydrogen Energy, http://dx.doi.org/10.1016/j.ijhydene.2014.10.114, 40, 1, 719-728, 2015.01.
14. Hao WU, Shigeru HAMADA, Yasuji ODA, Hiroshi NOGUCHI, Effect of Internal Hydrogen on Very High Cycle Fatigue of Precipitation-strengthened Steel SUH660, International Journal of Fatigue, http://dx.doi.org/10.1016/j.ijfatigue.2014.07.006, 70, 406-416, 2015.01.
15. Shigeru HAMADA, Tomoya FUJISAWA, Motomichi Koyama, Norimitsu KOGA, Nobuo Nakada, Toshihiro Tsuchiyma, Masaharu UEDA, Hiroshi Noguchi, Strain Mapping with High Spatial Resolution across a Wide Observation Range by Digital Image Correlation, Materials Characterization, 10.1016/j.matchar.2014.10.010, 98, 140-146, 2014.12.
16. Hao WU, Shigeru hamada, Hiroshi Noguchi, Fatigue strength characteristics evaluation of SUH660 considering small fatigue crack propagation behavior and hardness distribution, International Journal of Fatigue, http://dx.doi.org/10.1016/j.ijfatigue.2013.12.011, 63, 1-11, 2014.03.
17. Tomoya FUJISAWA, shigeru hamada, Norimitsu KOGA, Daisuke SASAKI, Toshihiro Tsuchiyma, Nobuo Nakada, Kazuki Takashima, Masaharu Ueda, Hiroshi Noguchi, Proposal of an engineering definition of a fatigue crack initiation unit for evaluating the fatigue limit on the basis of crystallographic analysis in case of pearlitic steel, International Journal of Fracture, 10.1007/s10704-013-9895-3, 185, 1-2, 17-29, 2014.01.
18. Shigeru Hamada, Takuya KINOSHITA, Kazunori MORISHIGE, Komei HAYASHI, Toshiyuki ISHINA, Hiroshi Noguchi, Engineering definitions of small crack and long crack at fatigue limit under tensile mean stress and a prediction method for determining the fatigue limit of a cracked Mg alloy, International Journal of Fatigue, 10.1016/j.ijfatigue.2013.08.006, 56, 86-94, 2013.11.
19. Hao WU, shigeru hamada, Hiroshi Noguchi, Pre-strain Effect on Fatigue Strength Characteristics of SUH660 Plain Specimens, International Journal of Fatigue, http://dx.doi.org/10.1016/j.ijfatigue.2013.06.021, 55, 291-298, 2013.10.
20. Shigeru hamada, Mitsuji Ueda, Komei Hayashi, Hiroshi Noguchi, Simple Calculation Method for Stress Concentration and Stress Intensity of T-Shaped Member, International Journal of Mechanical Sciences, 10.1016/j.ijmecsci.2013.05.015, 75, 8-15, 2013.10, The objective of this study is to clarify the influence of shape parameters on the stress concentration in simple forms. In recent years, by the spread of general purpose Finite Element Method (FEM) analysis software, anyone can carry out FEM analysis now and can grasp the stress state of a structure. However, in order to grasp the influence on a stress state when some shape parameter has changed, FEM analyses for each shape are required, and it requires long time. As an example of this issue in fatigue strength design, the relation between the plate and rib in a T-shaped structure, containing a corner, is analysed. The stress concentration factor or stress intensity factor between these two connected shapes are analyzed by the FEM, and a method of approximating the stress concentration factor and stress intensity factor in an actual shape is proposed. Then, the proposed FEM-based method was validated through a comparison of the results obtained using this method for shapes of finite dimensions with existing analytical solutions for shapes of infinite dimensions..
21. Hao WU, shigeru hamada, Hiroshi Noguchi, Fatigue strength prediction for inhomogeneous face-centered cubic metal based on Vickers hardness
, International Journal of Fatigue, http://dx.doi.org/10.1016/j.ijfatigue.2012.09.021, 48, 3, 48-54, 2013.03, To find the Vickers hardness (HV) value for predicting the fatigue strength of inhomogeneous face-centered cubic (FCC) metals, HV tests were performed on SUH660 stainless steel. The results indicate that the intrinsic hardness distribution can be obtained from the HV distribution in test zones according to the Vickers hardness definition. The soft zone greatly affects the fatigue strength of an inhomogeneous FCC metal. Therefore, for another inhomogeneous FCC metal in which fatigue cracks initiate and propagate easily in the softest zone, the fatigue limit can be predicted using the mean HV value of the softest zone..
22. Shigeru HAMADA, Suguru KASHIWAGI, Akio SONODA, Naoshi IZUMI and Hiroshi NOGUCHI , Evaluation of Notch Tensile Strength for High Strength Steel with Inclusions (for Casting High Speed Steel)
, Journal of Solid Mechanics and Materials Engineering, 6, 2, 121-130, Vol.6, No.2, pp.121-130, 2012.02.
23. Youhei OHMOTO, Mitsuru SATOH and Shigeru HAMADA and Hiroshi NOGUCHI, Evaluation of Estimation Method for Thermal Fatigue Crack Growth Rate in Epoxy Resign Composites, Journal of Solid Mechanics and Materials Engineering, 5, 10, 546-557, 2011.11.
24. Shigeru HAMADA, Komei HAYASHI, Toshiharu MATSUMOTO, Michiru SAKAMOTO and Hiroshi NOGUCHI , Proposed Strength Evaluation Method for Casting Material with Defects (Using Non-combustible Mg Alloy with Added-Si), Journal of Solid Mechanics and Materials Engineering, 5, 10, 534-545, 2011.11.
25. K. Hayashi, S. Hamada, T. Matsumoto, M. Sakamoto and H. Noguchi, Method of evaluation of distribution characteristics of flaky inclusions, Strength of Materials, 10.1007/s11223-011-9310-0, 43, 4, 411-416, 2011.10.
26. 濱田 繁,迫田 優,佐々木大輔,上田正治,野口博司, 微視組織構造に注目したパーライト鋼の疲労限度特性評価について, 材料, 60, 9, 790-795, Vol. 60, No. 9, pp.790-795, 2011.09.
27. To-ru ARAMAKI, Shigeru HAMADA, Hiroshi NOGUCHI, Shinya MIYAJI, Toshihiro TACHIKAWA, Arata TATSUMI, Takashi KAYAMOTO, Strength Evaluation of Alumina Spray Coating (5th Report, Consideration of the Strength in Sprayed Structure under Thermal Stress), Journal of Solid Mechanics and Materials Engineering, doi:110.1299/jmmp.5.425, 5, 8, 425-444, 2011.08.
28. Shigeru HAMADA, Taka-aki KAWAZOE, Komei HAYASHI, Harumi MORITA, Mitsuji UEDA, Michiru SAKAMOTO, Hiroshi NOGUCHI , Proposed Simple Determination Method for Welding Condition of Joint from Fatigue Limit Characteristics (1st Report: Application to TIG-Butt-Joint of Non-combustible Mg Alloy)
, Journal of Solid Mechanics and Materials Engineering, 5, 8, 409-424, 2011.08.
29. Komei HAYASHI, Shigeru HAMADA, Ichinori SHIGEMATSU, Michiru SAKAMOTO and Hiroshi NOGUCHI, Effect of Friction Stir Welding Condition on Fatigue Limit of Welded Non-combustible Mg Alloy, Key Engineering Materials, 10.4028/www.scientific.net/KEM.488-489.311, 488-489, 311-314, 2011.08.
30. To-ru ARAMAKI, Shigeru HAMADA, Hiroshi NOGUCHI, Shinya MIYAJI, Toshihiro TACHIKAWA, Arata TATSUMI, Takashi KAYAMOTO, Strength Evaluation of Alumina Spray Coating (4th Report, Proposal for the Dangerous Volume Quantifation Method), Journal of Solid Mechanics and Materials Engineering, doi:10.1299/jmmp.5.294, 5, 6, 294-310, 2011.06.
31. To-ru ARAMAKI, Shigeru HAMADA, Hiroshi NOGUCHI, Shinya MIYAJI, Toshihiro TACHIKAWA, Arata TATSUMI, Takashi KAYAMOTO, Strength Evaluation of Alumina Spray Coating (2nd Report, Proposal for Judgment of Crack Interference and Correction Methods of Crack-Shape), Journal of Solid Mechanics and Materials Engineering, 5, 4, 191-208, 2011.04.
32. 濱田 繁,呉 昊,野口 博司, 析出強化型ステンレス鋼A286における微視的疲労き裂の挙動, 機械学会論文集A編, Vol.77, No.773, pp.223-227, 2011.01.
33. 濱田 繁,川添宇昭,林 功明,森田春美,上田光二,坂本 満,野口博司, 疲労限度特性から求める継手溶接条件に対する簡易決定法の提案(第1報:難燃性マグネシウム合金TIG突合せ溶接継手への応用), 機械学会論文集A編, Vol.76, No.772, pp.1626-1635, 2010.12.
34. 大本洋平,佐藤 満,濱田 繁,野口博司, エポキシ樹脂複合体の熱疲労き裂進展特性評価法の検討, 機械学会論文集A編, Vol.76, No.770, pp.1343-1350, 2010.10.
35. 濱田 繁・柏木 卓・園田 晃大・和泉 直志・野口 博司, 介在物を有する高強度切欠き材の強度評価(鋳造高速度鋼材を例にとって) , 機械学会論文集A編, Vol.75, No.760, pp.1764-1770, 2009.12.
36. 濱田 繁・林 功明・松本 敏治・坂本 満・野口 博司, 欠陥を有する鋳造材料に対する強度評価法の提案(Si添加難燃性合Mg合金による検討), 機械学会論文集A編, Vol.75, No.758, pp.1326-1333, 2009.10.
37. 荒巻 徹・濱田 繁・野口 博司・宮地 真也・立川 俊洋・巽 新・茅本隆司, アルミナ溶射皮膜の強度評価(第5報, 熱負荷に対する溶射構造体の強度検討), 機械学会論文集A編, Vol.75, No.757, pp.1177-1186, 2009.09.
38. Shigeru HAMADA, Katsu OHNISHI, Hide-aki NISHIKAWA, Yasuji ODA, Hiroshi NOGUCHI, SIMS analysis of low content hydrogen in commercially pure titanium, Journal of Materials Science, Vol.44, No.20, pp.5692-5696, 2009.08.
39. 荒巻 徹・濱田 繁・野口 博司・宮地 真也・立川 俊洋・巽 新・茅本隆司, アルミナ溶射皮膜の強度評価(第4報, 機械的負荷に対する溶射構造体の強度検討), 機械学会論文集A編, Vol.75, pp.1097-1105, 2009.08.
40. 荒巻 徹・濱田 繁・野口 博司・宮地 真也・立川 俊洋・巽 新・茅本隆司, アルミナ溶射皮膜の強度評価(第3報, き裂干渉を考慮した破壊強度安全設計法の提案), 機械学会論文集A編, Vol.75, pp.855-865, 2009.07.
41. 荒巻 徹・濱田 繁・野口 博司・宮地 真也・立川 俊洋・巽 新・茅本隆司, アルミナ溶射皮膜の強度評価(第2報, き裂の干渉判定条件及びき裂形状補正法の提案), 機械学会論文集A編, Vol.75, pp.845-854, 2009.07.
42. Akio SONODA, Shigeru HAMADA and Hiroshi NOGUCHI , Analysis of Small Spalling Mechanism on Hot Rolling Mill Roll Surface, Memoirs of the Faculty of Engineering, Kyushu University, Vol. 69, No. 1, pp.1-14, 2009.03.
43. Takumi FUJII, Kazunori MORISHIGE, Shigeru HAMADA, Hiroshi NOGUCHI, Michiru SAKAMOTO and Hidetoshi UENO, Fatigue Strength Characteristics of Non-combustible Mg Alloy, Journal of Solid Mechanics and Materials Engineering, Vol.2, No.6, pp.763-770, 2008.06.
44. 森重利紀・前田祐奈・濱田 繁・野口博司, 難燃性マグネシウム合金の疲労強度特性(第2報:疲労強度に及ぼす平均応力の影響), 機械学会論文集A編, Vol.73, pp.115-121, 2008.05.
45. Hideaki NISHIKAWA, Shigeru HAMADA and Katsu Ohnishi, SIMS Analysis of Hydride in Commercially Pure Titanium, Memoirs of the Faculty of Engineering, Kyushu University, Vol. 67, No. 4, pp.191-197, 2008.02.
46. Akio SONODA, Suguru KASHIWAGI, Shigeru HAMADA and Hiroshi NOGUCHI, Quantitative Evaluation of Heat Crack Initiation Condition Under Thermal Shock, Journal of Solid Mechanics and Materials Engineering, Vol.2, No.1, pp.128-136, 2008.01.
47. Yu SAKODA, Suguru KASHIWAGI, Shigeru HAMADA and Hiroshi NOGUCHI, Microscopic Deformation Behavior Observation of Lamellar Pearlite during Plastic Deformation, Journal of Solid Mechanics and Materials Engineering, Vol.2, No.1, pp.137-144, 2008.01.
48. 片桐大輔・横山吉典・坂本博夫・濱田 繁, MEMSパッケージ封止接合部の強度信頼性評価, 材料, 第56巻, 第10号, pp.926-931, 2007.12.
49. Shigeru HAMADA and Kenji HASIZUME, Strength Reliability of Micro Polycrystalline Silicon Structure, Memoirs of the Faculty of Engineering, Kyushu University, Vol. 67, No. 3, pp.105-116, 2007.12.
50. Shigeru Hamada and Kenji Hashizume, Strength Reliability of Micro Polycrystalline Silicon Structure, Key Engineering Materials, Vols. 345-346, pp. 777-780, 2007.01.
51. Eiji Yoshikawa, Masahiro Tsugai, Makio Horikawa, Hiroshi Otani and Shigeru Hamada, Influence of RTA Parameters on Residual Stress and Stress Gradient of Multilayered LPCVD Polysilicon Film, Sensors and Materials, Vol.16, No.5, pp.223-229, 2004.05.
52. 村上敬宜,福原健人,濱田繁, Mode II疲労き裂進展下限界値ΔK_の測定, 材料, Vol.51, No.8, pp.918-925, 2002.08.
53. Y. MURAKAMI, C. SAKAE, S. HAMADA, Mechanism of rolling contact fatigue and measurement of ΔKIIth for steels, Engineering Against Fatigue, 473-485, pp.473-485, 1999.01.
54. Y. MURAKAMI, S. HAMADA, A NEW METHOD FOR THE MEASUREMENT OF MODE II FATIGUE THRESHOLD STRESS INTENSITY FACTOR RANGE ΔKτth, Fatigue & Fracture of Engineering Materials & Structures,, Vol.20, No.6, pp.863-870, 1997.06.
55. 村上 敬宜,濱田 繁,杉野 和男,高尾 健一, せん断(Mode II)疲労き裂伝ぱ抵抗値ΔKτthの測定方法とその応用
, 材料, 第43巻, 第10号, pp.1264-1270, 1994.10.

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