Kyushu University Academic Staff Educational and Research Activities Database
List of Papers
Hiroshi Noguchi Last modified date:2017.05.30

Professor / Strength of Materials / Department of Mechanical Engineering / Faculty of Engineering


Papers
1. 野口 博司, Fatigue Crack Growth Behavior of JIS SCM440 Steel near Fatigue Threshold in 9-MPa Hydrogen Gas
Environment
, International Journal of Hydrogen, Vol.42, No.18 (May 2017), pp.13158-13170.  , Vol.42  , No.18  , 2017.05.
2. 野口 博司, Effects of Martensitic Transformability and Dynamic Strain Age Hardenability on Plasticity in Metastable
Austenitic Steels Containing Carbon
, Journal of Materials Science, Volume 52, Issue 13, (July 2017), pp. 7868-7882. , Volume 52, Issue 13 , 2017.05.
3. 野口 博司, Investigation on Mode I Propagation Behavior of Fatigue Crack in Precipitation-Hardened Aluminum Alloy
with Different Mg Content
, Materials Science Forum Vol. 889 (2017), pp. 143-147. , Vol. 889 , 2017.05.
4. 野口 博司, Effects of Lamella Size and Connectivity on Fatigue Crack Resistance of TRIP-Maraging Steel, International Journal of Fatigue, 100(2017) , pp. 176-186. , 100 , 2017.05.
5. 野口 博司, Characteristics of Hydrogen-assisted Intergranular Fatigue Crack Growth in Interstitial-free Steel: Role of
Plastic Strain Localization
, International Journal of Fracture, Vol. 206 , No.1 , 2017.05.
6. 野口 博司, Bone-like Extraordinary Crack Resistance in Metastable Multi-phase Nanolaminates, Science, 355(6329),  , 2017.05.
7. 野口 博司, Intrinsic Factors Triggering Coaxing Effect in Binary Fe-C Ferritic Alloys: a Viewpoint of Strain Aging, ISIJ International, Vol. 57, No. 2 (2017), pp. 358-364., Vol. 57, No. 2, 2017.05.
8. 野口 博司, Impact of Mn-C Couples on Fatigue Crack Growth in Austenitic Steels: the Attractive Atomic Interaction Is
Negative or Positive?
, International Journal of Fatigue, Vol. 99, No.1 (June 2017), pp. 1-12. , Vol. 99, No.1 , 2017.05.
9. 野口 博司, Underlying Interstitial Carbon Concentration Dependence of Transgranular Fatigue Crack Resistance in Fe-C Ferritic Steels: Viewpoint of Kinetic Effect, International Journal of Fatigue, Vol. 98, (2017) , pp.101-110., Vol. 98, 2017.03.
10. 野口 博司, Generalized Evaluation Method for Determining Transition Crack Length for Microstructurally Small to
Microstructurally Large Fatigue Crack Growth: Experimental Definition, Facilitation, and Validation
, International Journal of Fatigue, Vol. 95 (February 2017), pp. 38-44. , Vol. 95 , 2017.02.
11. 野口 博司, Comparative Study on Small Fatigue Crack Propagation between Fe-30Mn-3Si-3Al and Fe-23Mn-0.5C
Twinning-induced Plasticity Steels: Aspects of Non-propagation of Small Fatigue Cracks
, International Journal of Fatigue, Vol. 95 , 2017.01.
12. 野口 博司, Suppression Mechanism of Strain-age Hardening in Carbon Steel Associated with Hydrogen Uptake, ISIJ International, Vol. 56, No. 9 , 2016.09.
13. 野口 博司, Notch Sensitivity in Fatigue Limit of High Strength Steel, ISIJ International, Vol. 56, No. 8 , 2016.08.
14. 野口 博司, Elucidation of the Effects of Cementite Morphology on Damage Formation during Monotonic and Cyclic
Tension in Binary Low Carbon Steels Using In Situ Characterization
, Materials Science and Engineering A, 667(2016), pp. 358-367., 667, 2016.05.
15. 野口 博司, In-situ Microscopic Observations of Low-cycle Fatigue Crack Propagation in High Mn Austenitic Alloys with Deformation-induced ε-martensitic Transformation , Acta Materialia , 112, 2016.05.
16. 野口 博司, Potential Resistance to Transgranular Fatigue Crack Growth of Fe-C Alloy with a Supersaturated Carbon
Clarified through FIB Micro-notching Technique, International Journal of Fatigue, 87, 2016.02.
17. 野口 博司, Measurement of Local Mechanical Properties Using Multiple Indentations by a Special Conical Indenter and
Error Analysis, Journal of Materials Research, Vol. 31, 2, 2016.01.
18. Hiroshi Noguchi, Motomichi Koyama, Yachen YU, Zhou-Jia Xi, Nobuyuki Yoshimura, Eisaku Sakurada, Kohsaku Ushioda, Elucidation of the Effects of Cementite Morphology on Damage Formation during Monotonic and Cyclic Tension in Binary Low Carbon Steels Using In Situ Characterization, Materials Science and Engineering A, 667, 2016.01.
19. Yosuke ONISHI, Motomchi KOYAMA, Daisuke SASAKI and Hiroshi NOGUCHI, Characteristic Fatigue Crack Growth Behavior of Low Carbon Steel under Low-pressure Hydrogen Gas Atmosphere in an Ultra-low Frequency, ISIJ International, 56, 5, 2016.01.
20. Yun-Byum JU, Motomichi KOYAMA, Takahiro SAWAGUCHI, Kaneaki TSUZAKI and Hiroshi NOGUCHI, In-situ Microscopic Observations of Low-cycle Fatigue Crack Propagation in High Mn Austenitic Alloys with Deformation-induced ε-martensitic Transformation , Acta Materialia, 112, 2016.01.
21. Bochuan LI, Motomchi KOYAMA, Eisaku SAKURADA, Nobuyuki YOSHIMURA, Kohsaku USHIODA and Hiroshi NOGUCHI, Potential Resistance to Transgranular Fatigue Crack Growth of Fe-C Alloy with a Supersaturated Carbon Clarified through FIB Micro-notching Technique, International Journal of Fatigue, 87, 2016.01.
22. Shigeru HAMADA, Shogo KASHIWA and Hiroshi NOGUCHI, Measurement of Local Mechanical Properties Using Multiple Indentations by a Special Conical Indenter and Error Analysis, Journal of Materials Research, 31-2, 2016.01.
23. Naoya OCHI, Yu-ki HIGUCHI, Ichihito NARITA, Hirofumi MIYAHARA, Toshiharu MATSUMOTO, and Hiroshi NOGUCHI, Fracture-Mode-Identification Method from Shrinkage Porosity of Mg Cast Alloy Based on Microscopic Plastic Deformation Measurement, Materials Science and Engineering A, 642, 2015.01.
24. Daisuke SASAKI, Motomichi KOYAMA, Kenji HIGASHIDA, Kaneaki Tsuzaki and Hiroshi NOGUCHI , Effects of Hydrogen-altered Yielding and Work Hardening on Plastic-zone Evolution: a Finite-element Analysis, International Jounal of Hydrogen Energy, 40, 17, 2015.08.
25. Yoshimasa TAKAHASHI, Takahiro SHIKAMA, Ryota NAKAMICHI, Yuji KAWATA, Naoki KASAGI, Hironari NISHIOKA, Syuzaburo KITA, Masanori TAKUMA and Hiroshi NOGUCHI, Effect of Additional Magnesium on Mechanical and High-cycle Fatigue Properties of 6061–T6 Alloy, Materials Science and Engineering A, 641, 2015.01.
26. Zhou-Jia Xi, Motomichi KOYAMA, Yuichi YOSHIDA, Nobuyuki YOSHIMURA, Kohsaku USHIODA and Hiroshi NOGUCHI, Effect of Cementite Morphology on Short Fatigue Crack Propagation in Binary Fe-C Steel, Philosophical Magazine Letters, 95, 7, 2015.07.
27. Huichao LI, Motomichi KOYAMA, Takahiro SAWAGUCHI, Kaneaki TSUZAKI and Hiroshi NOGUCHI, Importance of Crack-propagation-induced ε-martensite in Strain-controlled Low-cycle Fatigue of High Mn Austenitic Steel, Philosophical Magazine Letters, 95, 695, 2015.06.
28. Daisuke SASAKI, Motomichi KOYAMA and Hiroshi NOGUCHI, Factors Affecting Hydrogen-assisted Cracking in a Commercial Tempered Martensitic Steel : Mn Segregation, MgS and Stress State around Abnormal Cracks, Materials Science and Engineering A, 640, 2015.07.
29. Daisuke SASAKI, Motomichi KOYAMA, Shigeru HAMADA and Hiroshi NOGUCHI, Tensile Properties of Precracked Tempered Martensitic Steel Specimens Tested at Ultralow Strain Rates in High-Pressure Hydrogen Atmosphere, Philosophical Magazine Letters, 95, 5, 2015.05.
30. Na-oki FUKUMURA, Tomohiro SUZUKI, Shigeru HAMADA, Kaneaki TSUZAKI and Hiroshi NOGUCHI, Mechanical Examination about Crack Length Dependency and Material Dependency of Threshold Stress Intensity Factor Range with Dugdale Model, Engineering Fracture Mechanics, 135, 2015.02.
31. Motomichi Koyama, 周 佳羲, 吉田 裕一, 吉村 信幸, 潮田 浩作, 野口 博司, Intergranular Fatigue Crack Initiation and Its Associated Small Fatigue Crack Propagation in Water-quenched Fe-C Fully Ferritic Steel, ISIJ International, 55, 11, 2015.01.
32. Naoya OCHI, Yuki HIGUCHI, Ichihito NARITA, H. Miyahara, Toshiharu MATSUMOTO, 野口 博司, Identification Method of Fracture Mode based on Measurement of Microscopic Plastic Deformation in a Mg Cast Alloy, Material Science & Engineering A, A, 642, 2015.01.
33. Jong-cheon KIM, Seong-kyun CHEONG, 野口 博司, Proposed Fatigue Damage Measurement parameter for Shot-peened Carbon Steel based on Fatigue Crack Growth Behavior, International Journal of Fatigue, 74, 2015.01.
34. 西本 篤史, Motomichi Koyama, 大和 慈, Yasuji Oda, Tohru Awane, 野口 博司, Detection of Charged Hydrogen in Ferritic Steel through Cryogenic Secondary Ion Mass Spectrometry, ISIJ International, 55, 1, 2015.01.
35. 野口 博司, Hao WU, shigeru hamada, Yasuji Oda, Effect of Internal Hydrogen on Very High Cycle Fatigue of Precipitation-strengthened Steel SUH660, International Journal of Fatigue, 2014.01.
36. 野口 博司, 志鎌 隆広, Shinji YOSHIHARA, Yoshimasa TAKAHASHI, Analysis of Small Fatigue Crack in Al-Mg-Si Aluminum Alloy, Materials Science Forum, 794-796, 2014.01.
37. 野口 博司, Yoshimasa TAKAHASHI, Hiroaki YOSHITAKE, Ryota NAKAMICHI, Takuya WADA, Masanori TAKUMA, Takahiro SHIKAMA, Fatigue Limit Investigation of 6061-T6 Aluminium Alloy in Giga-cycle Regime, Materials Science and Engineering A, 614, 2014.01.
38. 野口 博司, Jong-Cheon KIM, Seong-Kyun Cheong, A Non-microstructual Crack Formation Model for Understanding Fatigue-life Degradation in Shot-peened
Carbon Steel under LCF Loading, International Journal of Fatigue, 63, 2014.03.
39. 野口 博司, Fatigue Strength Characteristic Evaluation of SUH660 Considering Small Fatigue Crack Propagation
Behavior and Hardness Distribution, International Journal of Fatigue, 63, 2014.03.
40. 野口 博司, Thermally activated processes of fatigue crack growth in steels, Philosophical Magazine Letters, 94, 2014.02.
41. 野口 博司, Role of Eutectic Silicon Particles in Fatigue Crack Initiation and Propagation and Fatigue Strength
Characteristics of Cast Aluminun Alloy A356, Engineering Fracture Mechanics, 115, 2014.02.
42. 野口 博司, 高橋 可昌, H. Yoshitake, 志鎌 隆広, M. Takuma, Giga-cycle Property of a New Age-hardened Aluminium Alloy Containing Excess Solute Magnesium, Journal of Key Engineering Materials, 577, 2014.01.
43. 野口 博司, Lei Zeng, Zhaoyang Li, Renqing Che, 志鎌 隆広, Shinji Yoshihara, Tadashi Aiura, Mesoscopic Analysis of Fatigue Strength Property of a Modified 2618 Aluminum Alloy, International Journal of Fatigue, 59, 2014.01.
44. 野口 博司, Proposal for an Engineering Definition of a Fatigue Crack Initiation Unit for Evaluating the Fatigue Limit on the Basis of Crystallographic Analysis of Pearlitic Steel, International Journal of Fracture, 185, 1.
45. 野口 博司, Dongsun Lee, Yasuji Oda, Observation of Small Fatigue Crack Growth Behavior in the Extremely Low Growth Rate of Low Carbon
Steel in a Hydrogen Gas Environment, International Journal of Fracture, 183, 2, 2013.11.
46. 野口 博司, shigeru hamada, 木下 拓也, Kazunori Orishige, Komei Hayashi, Toshiyuki Ishina, 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, 56, 2013.11.
47. 野口 博司, Pre-strain Effect on Fatigue Strength Characteristics of SUH660 Plain Specimen, International Journal of Fatigue, 55, 2013.10.
48. 野口 博司, shigeru hamada, 上田 光二, 林 功明, Simple Calculation Method for Stress Concentration and Stress Intensity of T-shaped Member, 75, 2013.06.
49. 金鍾天, Seong-Kyun CHEONG, 野口 博司, Residual Stress Relaxation and Low-and High-cycle Fatigue Behavior of Shot-peened Medium-carbon Steel, International Journal of Fatigue, 56, 2013.07.
50. 金鍾天, Seong-Kyun CHEONG, 野口 博司, Evolution of Residual Stress Redistribution Associated with Localized Surface Microcracking in Shot-Peened Medium-Carbon Steel during Fatigue Test, International Journal of Fatigue, 55, 2013.06.
51. 野口 博司, Micro-analyses of Small Cracks in 6061-T6 Aluminum Alloy Subjected to High-cycle Fatigue, Key Engineering Materials, 525, 2013.01.
52. 野口 博司, An Investigation of Hydrogen Environment Effect on the Strain Aging of Low Carbon Steel through
Vickers Hardness Test, Journal of Testing and Evaluation, 41, 1, 2013.01.
53. 野口 博司, Method for Assessing Applicability of an Artificial Flaw as a Small Initial Crack for Fatigue Limit Evaluation and Its Application to a Drill Hole and an FIB Processed Sharp Notch in Annealed 0.45% Carbon Steel, Journal of Testing and Evaluation, 41, 2, 2013.03.
54. Hao WU, shigeru hamada, Hiroshi Noguchi, Fatigue Strength Prediction for Inhomogeneous Face-Centered Cubic Metal based on Vickers Hardness, International Journal of Fatigue, 48, 2013.01.
55. Dongsun LEE, Hide-aki NISHIKAWA, Yasuji Oda, Hiroshi Noguchi, Small Fatigue Crack growth Characteristics and Fracture Surface Morphology of Low Carbon Steel in Hydrogen Gas, Int. J. Fract.,ISSN 0376-9429, 179, 2013.01.
56. Lei ZENG, Takahiro SHIKAMA, Yoshimasa TAKAHASHI, Shinji YOSHIHARA, Tadashi AIURA, Hiroshi Noguchi, Fatigue Limit of New Precipitation-hardened Aluminium Alloy with Distinct Fatigue Crack Propagation Limit, International Journal of Fatigue, 44, 2012.04.
57. 志鎌 隆広, 吉原 シンジ, アイウラ タダシ, Dongsun LEE, Hiroshi Noguchi, Initiation and Propagation Behaviors of Fatigue Cracks in 5056 Aluminum Alloy Studied by Rotating-Bending Tests with Smooth Specimen, Journal of Solid Mechanics and Materials Engineering, 6, 5, 2012.04.
58. 志鎌 隆広, 高橋 可昌, 曽 磊, 吉原 シンジ, アイウラ タダシ, Kenji Higashida, Hiroshi Noguchi, Distinct Fatigue Crack Propagation Limit of New Precipitation-Hardened Aluminum Alloy, Scripta Materialia, 67, 2012.04.
59. Yasuji ODA, Hiroyuki MATSUNO, Hideaki NISHIKAWA and Hiroshi NOGUCHI, Low Pressure Hydrogen Gas Effect on Extremely Low Fatigue Crack Growth from Small Blind Holes of SUS304 and SUS316L, Journal of Solid Mechanics and Materials Engineering, Vol.5, No.6, 2011.10.
60. Hide-aki NISHIKAWA, Yasuji ODA and Hiroshi NOGUCHI, Investigation of Mechanism for Intergranular Fatigue Crack Propagation of Low Carbon Steel JIS S10C in Hydrogen Gas Environment, Journal of Solid Mechanics and Materials Engineering, Vol.5, No.6, 2011.10.
61. Komei HAYASHI, Shigeru HAMADA and Hiroshi NOGUCHI, Proposal of Distribution Characteristic Evaluation Method of Flaky Inclusion (Examination by Simulation), Strength of Materials, Vol.5, No.4, pp. - ., 2011.08.
62. To-ru ARAMAKI, Shigeru HAMADA, Hiroshi NOGUCHI, Shinya MIYAJI, Toshihiro TACHIKAWA, Arata TATSUMI and 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, Vol.5, No.4, pp.191-208., 2011.04.
63. Hideaki NISHIKAWA, Yasuji ODA, Yoshimasa TAKAHASHI and Hiroshi NOGUCHI, Microscopic Observation of the Mechanism for Brittle Striation Formation in Low Carbon Steel Fatigued in Hydrogen Gas (TEM and EBSD Observations Corresponding to Fractgraphy ), Journal of Solid Mechanics and Materials Engineering, Vol.5 No.4 (April 2011),pp.179-189., Vol.5, No.4, pp.179-189., 2011.04.
64. Hideaki NISHIKAWA, Yasuji ODA and Hiroshi NOGUCHI, Loading-Frequency Effects on Fatigue Crack Growth Behavior of a Low Carbon Steel JIS S10C in Hydrogen Gas Environment, Journal of Solid Mechanics and Materials Engineering, Vol.5, No.2, pp.104-116, 2011.02.
65. Yoshimasa TAKAHASHI, Junii SAKAMOTO, Masaki TANAKA, Kenji HIGASHIDA and Hiroshi NOGUCHI, Effect of Hydrogen on Dislocation Structures around a Mixed-mode Fatigue Crack Tip in a Single-crystalline Iron-silicon Alloy, Scripta Materialia, Vol. 64 (2011), pp.721-724., Vol. 64, pp.721-724., 2011.01.
66. Yoshimasa TAKAHASHI, Keigo YAMAGUCHI, Masaki TANAKA, Kenji HIGASHIDA and Hiroshi NOGUCHI, On the Micromechanism of Hydrogen-assisted Cracking in a Sigle-Crystalline Iron-silicon Alloy thin Sheet, Scripta Materialia, Vol. 64, pp.537-540, 2011.01.
67. Yoshimasa TAKAHASHI, Junji SAKAMOTO, Masaki TANAKA, Kenji HIGASHIDA and Hiroshi NOGUCHI , Charcterization of Dislocation Structures around a Mixed-mode Fatigue Crack Tip in a Sigle-crystralline Iron-silicon Alloy, Scripta Materialia, Vol.64, pp.157-160, 2011.01.
68. Yoichiro KITAHARA,Toyomitsu HARADA and Hirohsi NOGUCHI, Limits of Application Limit of Two-dimensional Elasticity Solution in Plates Loaded inTension nad Out-of-Plane Bending, Journal of Solid Mechanics and Materials Engineering , Vol.4, No.12, pp.1778-1790., 2010.12.
69. 鈴木 裕一、井籐賀 久岳、野口 博司, 水素ガス環境における1,300MPa級SCM435高強度鋼切欠き材の引張強度に及ぼす様々な環境因子の影響, 日本機械学会論文集(A編), 第76卷, 第772号, pp.1636-1642., 2010.12.
70. Yoshimasa TAKAHASHI, Hideaki NISHIKAWA, Yasuji ODA and Hiroshi NOGUCHI, Microscopic Characterization of Hydrogen-induced Quasi-brittle Fatigue Fracture in Low-strength Carbon Steel, Materials Letters, Vol. 64, pp.2416-2419, 2010.10.
71. Yoshimasa TAKAHASHI, Masaki TANAKA, Kenji HIGASHIDA, Kazuhiro Yasuda, An United Environmnetal Straing Holder for High-voltage Electron Microscopy, Ultra Microscopy, 110, pp.1420-1427, 2010.09.
72. Dongsun LEE, Hideaki NISIKAWA, Yasuji ODA and Hiroshi NOGUCHI, Effects of Gaseous Hydrogen on Fatigue Crack Growth Behavior of Low Carbon Steel, American Society of Mechanical Engineers, Pressure Vessel and Piping Division, pp. 499-507, 2010.08.
73. Hirokazu SHIMIZU, Yuichi OTSUKA and Hiroshi NOGUCHI, Design Review Based on Failure Mode to Visualize Reliability Problems in the Development Stage of Mechanical Products, International Journal of Vehicle Design, 53, 5, pp. 149-165., 2010.05.
74. Yuichi Otsuka, Ryo Misawa, Hiroshi Noguchi, Hiroyuki Yamaguchi, A consideration for using workers’ heuristics to improve safety rules based on relationships between creative mental sets and rule-violating actions, Safety Science pp.878-884, 2010.01.
75. Y.Takahashi, M.Tanaka, K.Higashida, K.Yamaguchi and H.Noguchi, An intrinsic effect of hydrogen on cyclic slip deformation around a {110} fatigue crack in Fe-3.2wt.%Si alloy, Acta Materialia 58(2010) pp.1972-1981, 2009.12.
76. Effects of Hydrogen Gas Environment on the Extremely Low Rate Fatigue Crack
Behavior from a Small Hole in JIS S10C
Dongsun LEE, Hideaki NISHIKAWA, Yasuji ODA and Hiroshi NOGUCHI
Transaction of the Japanese Society of Mechanical Engineers, Ser.A, Vol.75,
No.758, pp. 1440-1442 ( October 2009).
77. Proposal of Strength Evaluation Method in Casting Material with Defect            
 ( Using Si-Added Noncombustible Mg Alloy) 
Shigeru HAMADA, Komei HAYASHI, Toshihararu MATSUMOTO,
Michiru SALKAMOTO and Hiroshi NOGUCHI 
Transaction of the Japanese Society of Mechanical Engineers, Ser.A, Vol.75,
No.758, pp. 1326-1333 ( October 2009).
78. Low Pressure Hydrogen Gas Effect on Extremely Low Fatigue Crack Growth from Small Blind Holes of SUS304 and SUS316L
Yasuji ODA, Hiroyuki MATSUNO, Hideaki NISHIKAWA and Hiroshi NOGUCHI    Transaction of the Japanese Society of Mechanical Engineers, Ser.A, Vol.75,
No.758, pp. 1309-1318 ( October 2009).
79. Effect of Hydrogen Exposure on the Notch Tensile Properties fo High Strength Steel in Hydrogen Gas Environment
Yuichi Suzuki, Hisatake ITOGA and Hiroshi NOGUCHI                
Transaction of the Japanese Society of Mechanical Engineers, Ser.A, Vol.75,
No.758, pp. 1300-1308 ( October 2009).
80. Shigeru HAMADA, Katsu OHNISHI, Hideaki NISHIKAWA, Yasuji ODA and Hiroshi NOGUCHI               , SIMS Analysis of Low Content Hydrogen in Commertially Pure Titanium, Journal of Materials Science, Vol. 44 No.20(2009), pp. 5692-5696., 2009.09.
81. Strength Evaluation of Alumina Spray Coating
(5th Report, Consideration of the Strength in Sprayed Structure for Thermal Stress)  
    Tooru ARAMAKI, Hiroshi NOGUCHI, Shigeru HAMADA,Shinya MIYAJI, Toshihiro
TACHIKAWA,Arata TATSUMI and Takashi KAYAMOTO
Transaction of the Japanese Society of Mechanical Engineers, Ser.A, Vol.75,
No.757, pp.1177-1186 (September 2009).
82. Strength Evaluation of Alumina Spray Coating
(4th Report, Proposal for the Dangerous Volume Quantifation Method)   
    Tooru ARAMAKI, Shigeru HAMADA, Hiroshi NOGUCHI,Shinya MIYAJI, Toshihiro
TACHIKAWA,Arata TATSUMI and Takashi KAYAMOTO
Transaction of the Japanese Society of Mechanical Engineers, Ser.A, Vol.75,
No.756, pp.1097-1105 (August 2009).
83. Effect of Gaseous Hydrogen on Cyclic Slip Behavior around a Fatigue Crack Tip in
Fe-3.2%Si Single-Crystalline Alloy
Yoshimasa TAKAHASHI, Masaki TANAKA, Kenji HIGASHIDA, Keigo YAMAGUCHI
and Hiroshi NOGUCHI
Transaction of the Japanese Society of Mechanical Engineers, Ser.A, Vol.75,
No.756, pp.1082-1089 (August 2009).
84. Kyohei KAWAMOTO,Yasuji ODA、Hiroshi NOGUCHI、Hideki FUJII、 Takahiro IZUMI and Goro ITOH                    , Analysis of Local Hydrogen Distribution around Fatigue Crack Tip of SUS 304 with Secondary Ion Mass Spectrometry and Hydrogen Micro-print Technique, Journal of Solid Mechanics and Materials Engineering, pp. 898-909. , 2009.05.
85. Kyohei KAWAMOTO,Kazuhiko Ochi, Yasuji ODA and Hiroshi NOGUCHI, Effects of Hydrogen Gas Environment on the Fatigue Strength at 107 Cycles in the Plain Specimen of Type 316L Stainless Steel, Journal of Solid Mechanics and Materials Engineering, Vol.3 No.1 (2009) , pp.1-12., 2009.05.
86. Yoshimasa TAKAHASHI, Masaki TANAKA, Kenji HIGASHIDA and Hiroshi NOGUCHI, Hydrogen-induced Slip Localized around a Quasi-brittle Fatigue Crack Observed by
High-voltage Electron Microscopy, Scripta Mateialia, Vol.61 (2009), pp. 145-148., 2009.05.
87. Yoshimasa TAKAHASHI, Masaki TANAKA, Kenji HIGASHIDA and Hiroshi NOGUCHI, High-voltage Electron-Microscope Observation of Cyclic Slip Behavior around a Fatigue
Crack Tip in an Iron Steel, Scripta Mateialia, Vol.60(2009), pp.717-720, 2009.03.
88. Kyohei KAWAMOTO,Kazuhiko Ochi, Yasuji ODA and Hiroshi NOGUCHI, Effects of Hydrogen Gas Environment on the Fatigue Strength at 107 Cycles in the
Plain Specimen of Type 316L Stainless Steel, Journal of Solid Mechanics and Materials Engineering, Vol.3 No.1 (2009) , pp.1-12., 2009.01.
89. Characteristics of Mode I Fatigue Crack Growth of Aged Prestrained Carbon Steel.
90. H.SHIMANUKI, S.MATSUOKA, H.NOGUCHI, H.NANBU, R.IKEDA, Effect of the Exposure in the Pressurized Hydrogen Gas on the Fracture Properties of the Cyclic Plastic
Strained Carbon Steels for Piping, 8th International Symposium of the Japan Welding Society, 2008.11.
91. S-H.LEE, J-H.LEE, S-K.Cheong, H.NOGUCHI, A Toughening and Strengthening Technique of Hybrid Composites with Non-woven Tissue, Journal of Materials Processing Technology, Vol.207 pp.21-29, 2008.10.
92. Koji IKEMATSU, Takuhiro MISHINMA, Min-woo KANG, Yuuta AONO and Hiroshi NOGUCHI, Effect of Pre-strain on Fatigue Crack Growth of Age-hardened Al 6061-T, Journal of ASTM International, Volume 5, Issue 8, 2008.09.
93. T. FUJII, K. MORISHIGE, S. HAMADA, H. NOGUCHI, M. SAKAMOTO, H. 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.
94. Inportance of Small Crack on Metal Fatigue Strength Evaluation of Mechanical Parts.
95. Application Limit of Two-Dimensional Elasticity Solution.
96. Strength Evaluation of Alumina Spray Coating (1st Report, Proposal for the Control Method of Residual
Stresses).
97. Improvement Framework for Safety Rule Using Incident Reporting and Uorker's Practical Heuristics
(Empirical Consideration in Patient Safety Managemant).
98. Proposal for a Quantitative Indicator for a Shape Pattern in a Damage Distribution of Incident Reporting
and Its Utilization Concept.
99. Fatigue Characteristics of Vulcanized Natural Rubber for Antivibration(2nd Report, A Study on the Fatigue
Life Prediction Under Uniaxial Variable Loading).
100. Fatigue Characteristics of Vulcanized Natural Rubber for Antivibration (1st Report, A Study on the Effect
of Stress Ratio Focused on Fatigue Damage).
101. M.Kang, K.Irisa, Y.Aono, H.Noguchi, Prediction of the Fatigue Limit of Prestrained Carbon Steel Under Tensile Mean Stress, Journao of ASTM International, Vol.5 No.3 pp.1-13, 2008.01.
102. Fatigue Strength Characteristics of Non-Combustible Mg Alloy (2nd Report, Effect of Mean Stress on
Fatigue Strength).
103. Y.Sakoda, S.Kashiwagi, S.Hamada. H.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.
104. A.Sonoda, S.Kashiwagi, S.Hamada, H.Nogushi, Quantitative Evaluation of Heat Crack Initiation Condition Under Thermal Shock, Journal of Solid Mechanics and Materials Engineering, Vol.2 No.l pp.128-136, 2008.01.
105. M.Kang, Y.Aono, H.Noguchi, Effect of Prestrain Type on the Rotating Bending Fatigue Limit of Carbon Steel, Journal of Solid Mechanics and Materials Engineering, Vol.2 No.1 pp.89-94, 2008.01.
106. T.Miyazaki, H.Kang. H.Noguchi, K.Ogi, Prediction of High-cycle Fatigue Life Reliability of Aluminum Cast Alloy from Statistical Characteristics of
Defects at Meso-scale, International Journal of Mechanical Science, Vol.50 pp.152-162, 2008.01.
107. H.Nishikawa, Y.Oda, H.Noguchi, Effects of Internal Hydrogen on Fatigue Strength of Commercially Pure Titanium, Memoirs of The Faculty of Engineering Kyushu University, Vol.167 No.4, 2007.12.
108. Effects of Hydrogen Gas Environment on the Fatigue Strength at 10 cycles in the Plain Speciments of
Type 316L Stainless Steel (A Report Focusing on the Behavior of Micro Fatigue Crack).
109. K.Kawamoto, Y.Oda, H.Noguchi, Fatigue Crack Growth Characteristics and Effects of Testing Frequency on Fatigue Crack Growth Rate in
a Hydrogen Gas Environment in a Few Alloys, Materials Science Forum, Vols.567-568 pp.329-332, 2007.12.
110. Y.Kim, H.Noguchi, M.Amagai, Evaluation of Impact Strength due to Thermal Degradation for BGA-IC Package, Journal of Solid Mechanics and Materials Engineering, Vol.1 No.10 pp.1271-1280, 2007.10.
111. Y.Otsuka, J.Ayuzawa, H.Noguchi, Quantitative prediction for acceptacne limit value to society for the service quality of an independent
system, Simulation Modelling Practice and Theory, Vol.15 pp.1103-1119, 2007.09.
112. A.Hagihara, Y.Oda, H.Noguchi, Influence of Testing Frequency on Fatigue Crack Growth of 6061-T6 Alminum Alloy in Hydrogen Gas
Environment, Key Engineering Materials, Vol.353-358 pp.174-177, 2007.09.
113. Effect of Hydrogen Gas Environment on Fagitue Crack Growth of FSW Joint of A606-T6 Aluminum Alloy.
114. Investigation of Local Hydrogen Distribution Around Fatigue Crack Tip on a Type 304 Stainless Steel with
Secondary Ion Mass Spectrometry and the Hydrogen Micro-print Technique.
115. T.Miyazaki, Y.Aono, H.Noguchi, A Practical Stress Analysis for Predicting Fatigue Lomit of Metal with Axisymmetric Complex Surface, International Journal Fracture, Vol.43 No.3 pp.355-367, 2007.03.
116. Reliability Problem Prevention Method of Stimulating Creativity and Visualizing Problems(3rd Report, Efficiency Improvement of Finding Misunderstood Problems in Design Process;For Usful Tool of On the Job Training).
117. H.Noguchi and Y.Oda, Fatigue Characteristics of Low Carbon Steel in Hydrogen Gas Environment, Key Engineering Materials, Vols.345-346、 pp.1051-1054, 2007.02.
118. T.Harada and H.Noguchi, Calculation of Stress Fields Near Notch Roots in Real Life of Stress Fields Near Notch Roots in Real Life Structures Subjected to In-Plane and Out-of-Plane Deformations, Journal of Testing and Evaluation, Vol.35, No.1 pp.10-19, 2007.01.
119. A Study on an Acceptable Safety Rule for Engineers and Workers in Design or Manufacturing Stage (An Empirical Research for Relationships between Creative Mental Set and Rule-Violalting Action).
120. K.Kawamoto, S.Yoshimutsu, H.Noguchi and T.Yoshimura, Laser Welding Conditions to Improve Tensile Strength and Fatigue Strength of a Lap Improve Tensile Strength and Fatigue Strength of a Lap Joint in Aluminum Alloys, Journal of Testing and Evaluation, Vo.35, No.4 pp.1-8, 2007.01.
121. Fatigue Crack Growth Characteristics of JIS SUS316L Austenitic Stainless Steel in a Hydrogen Gas Environment.
122. Y.AONO,H.NOGUCHI,S-H,LEE,T.KUROIWA,K.TAKITA, Fatigue Strength of Double-Bias Mat Composites Composed of Stitched unit
Layers, International Journal of Fatigue, Vol.28,No.10,pp1375-1381, 2006.10.
123. H.Noguchi, T.Harada, Crack Detection with Strain Gages and the Body Force Method, Structural Engineering and Mechanics, Vol.24, NO.6, pp.765-769, 2006.09.
124. Quantitative Prediction for Acceptance Limit Value of Society for Service Quality of Independent System.
125. Examination of Fatigue Characteristics of Aluminum Cast Alloy from Meso-level
Consideration
3rd Report, Prediction of the Fatigue Limit Reliability of Notched Specimen
of Metal Containing Different Sorts of Inhomogenities under R=-1
T.MIYAZAKI,H.NOGUCHI,H.MIYAHARA,Y.AONO
Transactions of the Japan Society of Mechanical Engineers.
126. Fatigue Strength Characteristics of Non-Combustible Mg Alloy
1st Report, Quantitive Comparison among Fatigue Strength of Three
Non-Combustible Mg Alloys
Y.KITAHARA,K.IKEDA,H.SHIMAZAKI,H.NOGUCHI,M.SAKAMOTO,H.UENO.
127. Evalution of Drop Strength due to Thermal Degradation for BAG-IC Package
Y-B.KIM,H.NOGUCHI,M.AMAGAI
Transactions of the Japan Society of Mechanical Engineers.
128. Y-B.KIM,H.NOGOCHI,M.AMAGAI, Vibration Fatigue Reliability of BGA-IC Package with Pb-free solder and
Pb-Sn solder, Microelectronics Reliability Journal, Vol.46pp459-466, 2006.01.
129. Examination of Fatigue Characteristics of Alminum Cast Alloy from Meso-level
Consideration
2nd Report, Prediction for the Fatigue Limit Reliability of Plain Specimen
of Metal Containing Different Sorts of Inhomogenities under R=-1
T.MIYAZAKI,H.NOGUCHI,K.OGI,Y.AONO
Transactions of the Japan Society of Mechanical Engineers.
130. T.MIYAZAKI,H.NOGUCHI,M.KAGE, Fatigue Limit of Steel with an Arbitrary Crack under a Stress Controlled
Constant with a Positive Mean Stress, International Journal of Fracture, 134, 2, Vol.134,No.2,pp109-126, 2005.07.
131. H.SHIMIZU,H.NOGUCHI, Reliability Problem Prevention Method for Automotive Components
-Development of GD Activity and DRBFM(Design Review Based Failure Mode), Transaction of Society of Automotive Engineers of Japan, pp163-168, 2005.07.
132. Y.AONO,K.KAWAMOTO,Y.ODA,H.NOGUCHI,K.HIGASHIDA, Fatigue Characteristics of a Type 304 Austenitic Stainless Steel in Hydrogen Gas Enbironment, International Journal of Fracture, 133, 3, Vil.133,No.3,pp277-288, 2005.06.
133. Fatigue Crack Detection Method with Strain Gages and Theory of Elasticity
for a Notch of Actual Thin Plate Structures under In-Plane Loading
T.HARADA,H.NOGUCHI.
134. Y.ODA,H.NOGUCHI, Observation of Hydrogen Effect on Fatigue Crack Growth Behavior in an 18Cr-8Ni
Austenitic Stainless Steel, International Journal of Fracture, 132, 2, Vol.132,No.2,pp99-113, 2005.03.
135. Y.KITAHARA,H.SHIMAZAKI,T.YABU,H.NOGUCHI,M.SAKAMOTO,H.UENO, Influence of Inclusions on Fatigue Characteristics of Non-combustible MgAlloy, Journal of Materials Science Forum, Vol.482,pp359-362, 2005.03.
136. K.KAWAMOTO,Y.AOKI,Y.ODA,H.NOGUCHI,K.HIGASHIDA, Effect of Hydrogen Environment on Fatigue Characteristics of 18Cr-8Ni
Stainless Steel, Journal of Materials Science Forum, Vol.482,pp283-286, 2005.03.
137. Effects of Hydrogen Environment on Fatigue Characteristics in a Type 304
Austenitic Stainless Steel
K.KAWAMOTO,Y.AOKI,Y.ODA,H.NOGUCHI,K.HIGASHIDA
Transactions of the Japan Society of Mechanical Engineers.
138. T.MIYAZAKI,H.NOGUCHI,M.KAGE,R.IMAI, Estimation for Fatigue Limit Reliability of Metal with Inhomogeneities under
Stress Ratio R=-1, International Journal of Mechanical Science, 47, 2, Vol.47,No.2,pp230-250, 2005.02.
139. Y.AONO,H.NOGUCHI, Fatigue Limit Reliability of Axisymmteric Complex Surface, International Journal of Fracture, 131, 1, Vol.131,No.2,pp59-78, 2005.02.
140. Quantitative Evaluation for AInfluence of Complex Surface Texture on Fatigeu
Reliability from Meso-characteristics
(3rd Report, Approximated Calculation of Stress Concentration of 2-Dimensional
Complex Surface)
Y.MIYAZAKI,S.OHAMA,H.NOGUCHI,Y.AONO
Transactions of the Japan Society of Mechanical Engineers.
141. Y.AOKI,T.MATSUYAMA,Y.ODA,H.NOGUCHI,K.HIGASHIDA, Effect of Hydrogen Gas Environment of Fatigue Behavior of Austeinitic
Stainless Steel, Key Engineering Materials, Vo.297-300pp927-932, 2005.01.
142. Fatigue Characteristics of Solder Joints in BGA-IC Package due to Vibration
(1st Report, Comparison of Package of Pb-free Solder Ball Report, Comparison of Package of Pb-free Solder Ball with That of PB Solder Ball Under a Transverse Vibration)
Y-B.KIM,H.NOGOCHI,M.AMAGAI
Transactions of the Japan Society Mechanical Engineers.
143. S-H.LEE,Y.AONO,H.NOGUCHI,S-K.CHEONG, Residual Compressive Failure Characteristics of Hybrid Composites with Non-Woven Tissue afere Indentation Damaged, Journal of Composite Materials, 38, 17, Vo.38,No.17,pp1461-1477, 2004.09.
144. T.MIYAZAKI,H.NOGUCHI,K.OGI, Quantitative Evaluation of the Fatigue Limit of a Metal with an Arbitrary Crack under a Stress Controlled Condition (Stress Ratio = -1), International Journal of Fracture, 129, 1, Vol.29,No.1,pp21-38, 2004.06.
145. T.YOSHIMURA,T.HARADA,H.NOGUCHI,T.YOSHIMURA, Estimation of Stress Field Neara a Notch Root of 3-D Structures with a Few Strain Data the Body Force Method, Journal of Testing and Evaluation, 32, 3, Vol.32,No.3 pp184-193, 2004.05.
146. Quantitative Evaluation of Fatigue Limit of a Metal with an Arbitrary Crack
under a Stress Controlled Condition
2nd Report, Steel under a Positive Mean Stress
T.MIYAZAKI,H.NOGUCHI,M.KAGE
Transactions of the Japan Society of Mechanical Engineers.
147. T.YOSHIMURA,T.HARADA,H.NOGUCHI,T.YOSHIMURA, Three-Dimensional Crack Detection Method of Structures Using Simulated Strain Gages and the Body Force Method, Journal of Testing and Evaluation, 32, 2, 2004.03.
148. Simple Estimation Method for Stress Field near a Notch in Real Structures
with Strain Gages
2nd Report, A Thin Plate under Anti-Plane Deformation or both In-Plane
and Anti-Plane Deformation
T.HARADA,H.NOGUCHI
Transactions of the Japan Society of Mechanical Engineers.
149. Quantitative System Management with Hierarchized Cellular Automate
1st Report, Fundamental Theory
Y.OHTSUKA,T.YOSHIMURA,H.NOGUCHI.
150. Residual Compressive Characteristics of Hybrid Composites with Non-Woven
Tissue after Static Indentation Damage
S-H.LEE,Y.AONO,H.NOGUCHI
Transactions of the Japan Society of Mechanical Engineers.
151. Examination of Fatigue Characteristics of Aluminum Cast Alloy from Meso-Scale
Characteristics
1st Report, Prediction of High-Cycle Fatigue Life Reliability of a Metal
with Cracks under R=-1
T.MIYAZAKI,H.NOGUCHI,H.KAGE,K.OGI
Transactions of the Japan Society of Mechanical Engineers.
152. Quantitative Evalution for Influence of Complex Surface Texture on Fatigue
Limit Reliability from Mesocharacteristics
2nd Report, Method to Predict Fatigue Limit Reliability and Its
Application to Axisymmetric Surfece Roughness
Y.AONO,H.NOGUCHI,H.HIDAKA,T.HATTORI
Transactions of the Japan Society of Mechanical Engineers.
153. Notch Size Effects in the Fatigue Characteristics of Al-Si-Cu-Mg Cast Alloy
Y.MARUNO,H.MIYAHARA,H.NOGUCHI,K.OGI
Journal Japan Institution Metals.
154. T. CHAYA, T.YOSHIMURA, H. NOGUCHI, Influence of Welding Parameters on Fatigue Strength Considering Nugget Size, Fatigue Damage of Materials – Experiment and Analyisis, Edited by A., 5, pp321-331, 2003.07.
155. S. OHAMA, T.YOSHIMURA, H. NOGUCHI, Fatigue Characteristics of Aluminum Alloy with Cast Skin, Fatigue Damage of Materials – Experiment and Analyisis, Edited by A. Varvani-Farahani and C.A. Brebbia, WIT Press, pp55-63, 2003.07.
156. T.HARADA, H.NOGUCHI, Fatigue Crack Detection with Estimation of Stress Fields near Notch Root of
   Thin Plate in In-Plane Loading, Journal of Testing and Evaluation, 31, 2, Vol.31, No.3, pp154-161, 2003.03.
157. S.-H.LEE, Y.AONO, H.NOGUCHI, S.-K. CHEONG, Damage Mechanism of Hybrid Composites with Non-woven Tissue Subjected to Static
 Indentation Loads, Journal of Composite Materials, 37, 4, Vol.37, No.3, pp333-349, 2003.02.
158. S.-H.LEE, H.NOGUCHI, S.-K. CHEONG, Fatigue Behavior Characteristics of Hybrid Composites with Non-Woven Carbon Tissue, Journal of Composite Materials, 37, 3, Vol.37, No.3 , pp253-268, 2003.02.
159. Evaluation for Notch Effect in Fatigue Limit Reliability of High Strength
Steels from Meso-Scale Characteristics
1st Report, in Case of Deep Notch under Zero Mean Stress
Transactions of the Japan Society of Mechanical Engineers.
160. Evaluation for Fatigue Limit Reliability from Consideration of Hardness Scatter
1st Report, Its Application to Plain Specimen of High Strength Steel under
Stress Ratio=-1
T.MIYAZAKI,H.NOGUCHI,M.KAGE,R.IMAI
Transactions of the Japan Society of Mechanical Engineers.
161. Quantitative Evaluation for Influence of Complex Surface Texture on Fatigue
Limit Reliability from Mesocharacteristics
1st Report, Stress Analysis of Infinite Plate with Complex Surface Profile
Y.AONO,H.NOGUCHI,T.HATTORI
Transactions of the Japan Society of Mechanical Engineers.
162. On the Mode II Interlaminar Fracture Toughness of Hybrid Comoposites with
Non-Woven Tissue
S-H.LEE,H.NOGUCHI,Y-B.KIM
The Official Journal of the Japan Society for Composite Materials.
163. Static Indentation Characteristics of Hybrid Composites with Non-Woven Tissue
1st Report, Observation of Damage
S-H.LEE,H.NOGUCHI,Y.AONO
Transactions of the Japan Society of Mechanical Engineers.
164. Y.MARUNO,H.MIYAHARA,H.NOGUCHI,K.OGI, Notch Size Effects in the Fatigue Characteristics of Al-Si-Cr-Mg Alloy, Materials Transactions, 2002.03.
165. Estimation of Stress Field near Notch Root of 3-Dimensional Actual
Structure with Some Strain Gases and the Body Force Method
1st Report, Proposal of Analysis Method
T.YOSHIMURA,T.HARADA,H.NOGUCHI,T.YOSHIMURA
Transamtions of the Japan Society of Mechanical Engineers.
166. Tension-Tension Fatigue Strength Characteristics of Hybrid Composites with
Non-Woven Tissue
S-H.LEE,H.NOGUCHI
Transaction of the Japan Society of Mechanical Engineers.
167. S.-H.LEE, H.NOGUCHI, Y.-B KIM, S.-K. CHEONG, Effect of Interleaved Non-Woven Carbon Tissue on Interlaminar Fracture Toughness
   of Laminated Composites: Part I- Mode Ⅱ, Journal of Composite Materials, 36, 18, Vol.36, No.18, pp2169-2182, 2002.08.
168. S.-H.LEE, H.NOGUCHI,Y.-B KIM, S.-K. CHEONG, Effect of Interleaved Non-Woven Carbon Tissue on Interlaminar Fracture Toughness
of Laminated Composites: PartⅡ—Mode I, Journal of Composite Materials, 36, 18, Vol.36, No.18, pp2153-2168, 2002.08.
169. Quantitative Evaluation of Fatigue Lomit of a Metal with an Arbitrary
Crack under a Stress Controlled Condition
1st Report,Stress Ratio=-1
T.MIYAZAKI,H.NOGUCHI,K.OGI
Transactions of the Japan Society of Mechanical Engineers.
170. S.-H.LEE, H.NOGUCHI, S.-K. CHEONG, Fatigue Characteristics of Hybrid Composites with Non-Woven Carbon Ti, International Journal of Fatigue, , Vol.24, No.3, pp397-405, 2002.03.
171. Y.ODA, Y.FURUYA, H.NOGUCHI, K.HIGASHIDA, AFM and SEM Observation on Mechanism of Fatigue Crack Growth in a Fe-3.2% Si
    Single Crystal, International Journal of Fracture, 113, 3, Vol.113, pp213-231, 2002.02.
172. T.YOSHIMURA, T.HARADA, H.NOGUCHI, T.YOSHIMURA, Crack Detection Method with Strain Gauge and Boundary Element Method, Applied Mechanics in The Americas, Vol.9, pp317-320, 2002.01.
173. Static Strength Characteristics of Hybrid Composites with Non-Woven Tissue
S-H.LEE,H.NOGUCHI
Tranasactions of the Japan Society of Mechanical Engineers.
174. Interlaminar Fracture Toughness of Hybrid Composites with Non-Woven Tissue
S-H.LEE,Y-B.KIM,H.NOGUCHI
Transactions of the Japan Society of Mechanical Engineers.
175. A.HASHIMOTO, T.MIYAZAKI, H.KANG, H.NOGUCHI, K.OGI, Estimation of Particle Size Distribution in Materials in case of Spheroidal
   Particles with Quantitative Microscopy, Journal of Testing and Evaluation, 28, 5, Vol.28, No.9, pp367-377, 2000.09.
176. Stress Intensity Factors of Corner Crack in a Quarter-Infinite Solid
H.NOGUCHI,T.YOSHIDA
Transactions of the Japan Society of Mechanical Engineers.
177. Molecular Dynamics Study for Low TEmperature Brittleness in a Tungsten
Single Crystal
Y.FURUYA,H.NOGUCHI
Transctions of the Japan Society of Mechanical Engineers.
178. Y. FURUYA, H. NOGUCHI, A Combined Method of Molecular Dynamics with Micromechanics Improved by Moving the Molecular Dynamics Region Successively in the Simulation of Elastic-plastic Crack Propagation, International Journal of Fracture, 94, 1, Vol.94, No.1, pp17-31, 1999.12.
179. An Investigation of Fatigue Crack Growth Mechanism on the basis of
Observations with AFM and SEM
1st Report, Examination from Straition Formation in Single Crystals
of a Fe-3.2%Si Alloy with (110)[001]Orientation
Y.ODA,Y.FURUYA,H.NOGUCHI,K.HIGASIDA
Transactions of the Japan Society of Mechanical Engineers.
180. Strength of Notched Uni-directional Composites with Various Fieber Angles
1st Report, Versatile Method for Stress-Concentration Problems
in an Anisotropic Plate, and Evaluation of the Elastic Fields
Y.AONO,H.NOGUCHI
Transactions of the Japan Society of Mechanical Engineers.
181. Strength of Notched Uni-directional Composites with Various Fieber Angles
2st Report, Strength Evaluation for the Specimen with Various Fiber Angles
from that with 90 deg Fiber Angle
Y.AONO,H.NOGUCHI
Transactions of the Japan Society of Mechanical Engineers.
182. Simuilation of Crack Propagation with (Molecular Dynamics+Micromechanics)Model
3rd Report, Evaluation of Fracture Toughness and Comparison with
Experimental Results
Y.FURUYA,H.NOGUCHI
Tranasactions of the Japan Society of Mechanical Engineers.
183. Estimation for Particle Size Distribution in Materials
1st Report, Spheroidal Particles with Cutting Method
A.HASHIMOTO,T.MIYAZAKI,H.KANG,H.NOGUCHI,K.OGI
Transactions of the Japan Society of Mechanical Engineers.
184. T.HARADA, H.NOGUCHI, Estimation of Stress Fields near Notch Root of Actual Structure under In-plane
   Loading with a Few Strain Gages, Journal of Testing and Evaluation, Vol.27, No.2, pp122-130, 1999.03.