岐阜大学工学部機械工学科
植松研究室
Department of Mechanical Engineering
UEMATSU Laboratory
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【研究活動】
最終更新日:2022/9/12
論文
[2022年] [2021年] [2020年] [2019年] [2018年] [2017年] [2016年] [2015年]
[2014年] [2013年] [2012年] [2011年]
[2022年]
・ Low cost estimation of Wöhler and Goodman-Haigh curves of Ti-6Al-4V samples by
considering the stress ratio effect(国際共著)(Paul Dario Toasa Caiza, Sire S.,
Ummenhofer T., Uematsu Y.), Fatigue and Fracture of Engineering Materials and
Structures, Vol.45, Issue 2, pp.441–450 (2022-1).
https://doi.org/10.1111/ffe.13607
・ A6061およびSi共晶アルミニウム合金の疲労強度と微小疲労き裂進展特性に及ぼす
製造工程の影響 Effect of fabrication processes on fatigue strength and small
fatigue crack growth behavior of A6061 and Al-Si eutectic alloys (植松美彦,柿内
利文,中垣貴紀,鈴木智博,尼子龍幸,北山功志郎,川畑博之) ,材料,第71巻,第6号,
pp.532–539 (2022-6).
Journal of the Society of Materials Science, Japan
https://doi.org/10.2472/jsms.71.532
・ Local strain analysis under quasi-static tensile loading in Al/steel dissimilar friction stir
weld by a digital image correlation method(国際共著)(Uematsu Y., Kakiuchi T., Niimi
K., Paul Dario Toasa Caiza), The International Journal of Advanced Manufacturing
Technology, Vol.120, Issue 1-2, pp.349–360 (2022-5).
https://doi.org/10.1007/s00170-021-08481-6
・ Full and partial compression fatigue tests on welded specimens of steel St 52-3. Effects
of the stress ratio on the fatigue life estimation(国際共著)(Paul Dario Toasa Caiza,
Sire S., Ummenhofer T., Uematsu Y.) Applications in Engineering Science, Vol.10
(2022-6),100091
https://doi.org/10.1016/j.apples.2022.100091
・ Non-destructive fatigue damage detection of carbon fiber-reinforced thermoplastics
using positron annihilation method (Uematsu Y., Kakiuchi K., Nishizawa H., Nakai A.,
Ohtani A., Uesugi N., Hattori K.), Fatigue and Fracture of Engineering Materials and
Structures, Vol.45, Issue 10, pp.2784–2793 (2022-10).
https://doi.org/10.1111/ffe.13775
・ Fatigue behavior of resistance spot welded steel sheets fabricated using electrodes
with different tip diameters (Uematsu Y., Kawabe N., Okita Y., Matsuda H., Kakiuchi
T., Igarashi T.,), ISIJ International, Vol. , No. , pp. – (2022- ). in press
https://doi.org
[2021年]
・ Microstructures and fatigue behavior of additively manufactured maraging steel
deposited on conventionally manufactured base plate (Uematsu Y., Kakiuchi, T.,
Nakajima M., Matsuo K.), Journal of Materials Engineering and Performance, Vol. 30,
pp. 4902–4910 (2021-8).
https://doi.org/10.1007/s11665-021-05548-z
・ Proposal of fatigue limit design curves for additively manufactured Ti-6Al-4V in a
regime using specimens with artificial defects(Uematsu Y,, Kakiuchi T., Han Y.,
Nakajima M.), Metals, Vol. 11, No. 6, (2021-6) 964.
https://doi.org/10.3390/met11060964
・ Effect of aging treatment on fatigue behavior of Nb-added ferritic
stainless steel type
429 welds in 3% NaCl solution(Koyama A., Takase T., Sonobe Y., Akita M., Kakiuchi T.,
Agata Y., Nakajima M., Saimoto A., Uematsu Y.), 溶接学会論文集,第39巻,第3号,
pp.158–162 (2021-9).
Quarterly Journal of the Japan Welding Society
https://doi.org/10.2207/qjjws.39.158
・ Fatigue design curves for laser-metal-deposited type 420 stainless steel and effect of
an interval during deposition process (Uematsu Y., Sasaki R., Kakiuchi T., Yamamoto S.,
Zensho A., Sano R.), The International Journal of Advanced Manufacturing Technology,
Vol.116, Issue 9-10, pp.2917–2927 (2021-10).
https://doi.org/10.1007/s00170-021-07605-2
・ 共晶Siを含むAl-Si合金の連続鋳造・押出し方向が疲労強度に及ぼす影響
Influences of continuous casting and extruding direction on fatigue strength of Al-Si
eutectic alloy (中垣貴紀,鈴木智博,尼子龍幸,柿内利文,植松美彦,北山功志郎,
川畑博之),日本機械学会論文集(材料力学,機械材料,材料加工),第87巻,第901号,
p. 21-00156 (2021-9)
Transactions of the Japan Society of Mechanical Engineers (in Japanese)
https://doi.org/10.1299/transjsme.21-00156
[2020年]
・ Fatigue crack propagation near the interface between Al and steel in dissimilar Al/steel
friction stir welds (Uematsu Y., Kakiuchi T., Ogawa D. and Hashiba
K.), International
Journal of Fatigue, Vol.138 (2020) 105706.
・ 摩擦攪拌スポット接合継手におけるナゲット周り内部疲労き裂のX線μCTスキャンによる
非破壊観察(柿内利文,植松美彦),材料,第69巻,第12号 (2020).
・ Effect of heat treatment at the temperature above β-transus on the microstructures
and fatigue properties of pure Ti (Uematsu Y., Huang C. A., Kakiuchi
T., Mizutani Y.
and Nakajima M.), Fatigue and Fracture of Engineering Materials
and Structures (2020).
[2019年]
・ 陽電子消滅法を用いたばね鋼SUP10の疲労損傷評価(柿内利文,服部兼久,
上杉直也,錦織大幸,植松美彦),ばね論文集,2019-64,pp. 89-94 (2019).
・ 亜鉛めっき鋼線の十字抵抗溶接継手における引張りおよび疲労特性評価(秋田
正之,柿内利文,中島正貴,川井孝生,椿井康司,植松美彦),溶接学会論文集,
37-1,pp. 35-43 (2019),
・ Heterogeneous local straining behavior under monotonic and cyclic
loadings
in a friction stir welded aluminum alloy (Besel Y., Besel M., Dietrich E., Wischek J.,
Mercado U. A., Kakiuchi T. and Uematsu Y.), International Journal of Fatigue (2019-8),
Vol. 125, pp. 138-148.
・ Prediction of fatigue limit in additively manufactured Ti-6Al-4V alloy at elevated
temperature (Kakiuchi T., Kawaguchi R., Nakajima M., Hojo M., Koji, Fujimoto K.
and Uematsu Y.). International Journal of Fatigue (2019-9) Vol. 126, pp. 55-61.
・ Residual stress measurement of Al/steel dissimilar friction stir weld (Ogawa D.,
Kakiuchi T., Hashiba K. and Uematsu Y.), Science and Technology of Welding and
Joining, Vol. 24, No .8, pp. 685-694 (2019-9).
・ Fatigue behavior of magnesium alloy with diamond-like carbon/nickel
plating hybrid
coating in laboratory air and corrosive environment (Uematsu Y., Kakiuchi T.,
Adachi M. and Nakamura K.). 材料,68-12, pp. 875-881 (2019).
・ Effect of machining process conditions on fatigue behavior of magnesium alloy AZ61
(Kakiuchi T. and Uematsu Y.), 材料, 68-12, pp. 882-889 (2019).
・ 抵抗スポット溶接継手の疲労挙動に及ぼす鋼板強度レベルおよびナゲット径の影響
(植松美彦,川邉直雄,柿内利文,加藤雄大,沖田泰明,松田広志,田川哲哉),溶接
学会論文集,37-4,pp. 152-161 (2019).
[2018年]
・ High cycle fatigue properties of multi-directionally forged commercial purity
grade 2 Ti plate (Ilhamdi, Kakiuchi T., Miura H., and Uematsu Y.),
Materials
Science Forum, Vol. 916, pp. 166-169 (2018-3).
・ Fatigue behavior of dissimilar friction stir welds between wrought and cast
aluminum alloys (Uematsu Y., Kakiuchi T., Mizutani Y., Ishida Y. and
Fukunaga K.), Science and Technology of Welding and Joining , Vol. 23, No.3,
pp.219-226 (2018-3).
・ The effect of friction stir processing and post aging treatment on fatigue behavior
of Ca-added flame-resistant magnesium alloy (Afrinaldi A., Kakiuchi T., Itoh R.,
Mizutani Y. and Uematsu Y.), The International Journal of Advanced Manufacturing
Technology, Vol.95, Issue5-8, pp.2379-2391(2018-3).
・ Fabrication of recycled carbon fiber reinforced magnesium alloy composite by friction
stir processing using 3-flat pin tool and its fatigue properties (Afrinaldi A., Kakiuchi T.,
Nakagawa S., Moritomi H., Kumabe A., Nakai A., Ohtani A, Mizutani
and Uematsu Y.)
Materials Transactions, Vol.59, No.3, pp.475-481 (2018-3).
・ Fatigue behavior of A5052 aluminum alloy with diamond-like carbon/electroless
nickel plating hybrid coating (Uematsu Y., Kakiuchi T. and Adachi M.),
Bulletin of JSME: Mechanical Engineering Letters, Vol. 4, Paper No. 18-00213 (2018).
・ 摩擦撹拌により作製したAl/Steel異種金属テーラードブランクの強度特性と後熱
処理の影響(小川大介,柿内利文,橋場圭吾,植松美彦),溶接学会論文集,
36-3,pp. 160-166 (2018).
・ Fatigue behavior of multi-directionally forged commercial purity grade 2 Ti plate
in laboratory air and Ringer’s solution (Ilhamdi, Kakiuchi T., Miura
H., Fukihara T.
and Uematsu Y.) Materials Transactions, Vol. 59, No. 8, pp.1296-1303 (2018-8).
・ EBSD-assisted fractography of sub-surface fatigue crack initiation
mechanism in
the ultrasonic-shot-peened βeta-type titanium alloy (Uematsu Y.,
Kakiuchi T. and
Hattori K.) Fatigue and Fracture of Engineering Materials and Structures, 41-11,
pp. 2239-2248 (2018).
・ Nb含有フェライト系ステンレス鋼JFE429EX溶接継手の大気中および塩水中における
疲労挙動に及ぼす溶接金属の影響,(秋田正之,柿内利文,小山敦弘,中島正貴,
高瀬 徹,縣 幸男,竹尾友佑,今里周平,杉本大志,植松美彦),溶接学会論文集,
36-4, pp. 238-246 (2018)..
[2017年]
・ Microstructural modification of AZ91 magnesium alloy using friction stir processing
and carbon fibers (Nakagawa S., Afrinaldi A. , Kakiuchi T., Uematsu Y., Ohtani A.,
Kumabe K. and Mizutani Y.), Materials Science Forum, Vol. 886, pp. 55-58 (2017).
・ Influence of local fatigue damage evolution on crack initiation behavior in a friction
stir welded Al-Mg-Sc alloy (Besel Y., Besel M., Mercado U. A., Kakiuchi T., Hirata T.
and Uematsu Y.), International Journal of Fatigue, Vol. 99, pp. 151-162 (2017).
・ Non-destructive evaluation of fatigue damage and fatigue crack initiation in type
316 stainless steel by positron annihilation line-shape and lifetime
analyses
(Uematsu Y., Kakiuchi T., Hattori K. , Uesugi N. and Nakao F.), Fatigue and
Fracture of Engineering Materials and Structures, Vol. 40, Issue 7, pp. 1143-
1153 (2017).
・ Crystallographic analysis of fatigue crack initiation behavior in coarse-grained
magnesium alloy under tension-tension loading cycles (Tamada K., Kakiuchi T.
and Uematsu Y.), Journal of Materials Engineering and Performance, Vol. 26,
Issue 7, pp. 3169-3179 (2017).
・ Fatigue limit prediction of A356-T6 cast aluminum alloys with different
defect
sizes sampled from an actual large-scale component (Uematsu Y., Kakiuchi T.,
Tajiri A. and Nakajima M.), International Journal of Structural Integrity, Vol. 8,
Issue 6, pp. 617-631 (2017).
[2016年]
・ Influence of joint line remnant on crack paths under static and fatigue loadings in
friction stir welded Al-Mg-Sc alloy (Besel Y., Besel M., Mercado
U. A., Kakiuchi T.
and Uematsu Y.), Frattura ed Integrità Strutturale (Fracture and Structural
Integrity), 35-1, pp. 359-369 (2016).
・ EBSD analysis of fatigue crack initiation behavior in coarse-grained AZ31 magnesium
alloy (Uematsu Y., Kakiuchi T., Tamada K. and Kamiya Y.), International Journal of
Fatigue, 84, pp. 1-8 (2016).
・ Fatigue behavior of Al/steel dissimilar resistance spot welds fabricated using
Al-Mg interlayer(Ibrahim I., Ito R., Kakiuchi T., Uematsu Y., Yun
K. and Matsuda C.)
Science and Technology of Welding and Joining, 21-3, pp. 229-233 (2016).
・ Effect of Ultrasonic Shot Peening on High Cycle Fatigue Behavior
in Type 304
Stainless Steel at Elevated Temperature (Kakiuchi T., Uematsu Y.,
Hasegawa N. and
Kondoh E.), 材料, 65-4, pp.325-330 (2016).
・ Defect-dominated fatigue behavior in type 630 stainless steel fabricated by selective
laser melting, (Akita M., Uematsu Y., Kakiuchi T. Nakajima M. and Kawaguchi R.),
Materials Science & Engineering A, 666, pp. 19-26 (2016).
・ 陽電子消滅法によるステンレス鋼SUS316の微小疲労き裂発生挙動評価(植松美彦,
服部兼久,柿内利文,上杉直也,仲尾文哉),ばね論文集,2016-61, pp.7-12 (2016).
・ 摩擦攪拌点接合を用いた孔埋め方法の特徴(生田明彦,Thomas H. North,植松美彦)
溶接学会論文集,34-3,pp.159-166 (2016)..
・ 溶接材料の異なるフェライト系ステンレス鋼SUS430継手のおける溶接部微視組織・
機械的特性および疲労挙動(秋田正之,植松美彦,柿内利文,縣幸男,滝野晃平),
溶接学会論文集,34-3, pp.167-174 (2016).
・ Evaluation of fatigue crack propagation in dissimilar Al/steel friction
stir welds,
(Kakiuchi K., Uematsu Y. and Suzuki K.), Procedia Structural Intergrity, Vol. 2,
pp. 1007-1014 (2016).
・ Fatigue behavior of AZ31 magnesium alloy evaluated using single crystal
micro cantilever specimen (Uematsu Y., Kakiuchi T., Tamano S., Mizuno S.
and Tamada K.), International Journal of Fatigue, Vol. 93, pp. 30-37 (2016-12).
・ Effect of Grain Size on Fatigue Behavior in AZ61 Mg Alloys Fabricated by MDFing
(Uematsu Y., Kakiuchi T., Miura H. and Nozaki T.), Materials Transactions, Vol. 57,
No. 9, pp. 1454-1461 (2016-9).
・ 二段超音波ショットピーニングによるMg合金AZ61の疲労強度向上(柿内利文,植松美彦,
真田健太郎,仲尾文哉,服部兼久), 日本機械学会論文集(材料力学,機械材料,材料
加工) ,82-842, p. 16-00218 (2016).
・ Microstructural modification of non-combustible magnesium alloy by friction stir
processing (Afrinaldi A., Uematsu Y., Kakiuchi T. and Itoh R.), Materials Science Forum,
Vol. 880, pp. 25-28 (2016).
[2015年]
・ Fatigue behavior of bulk β-type titanium alloy Ti-15Mo-5Zr-3Al annealed
in high temperature nitrogen gas (Akita M., Uematsu Y.,Kakiuchi T.,
Nakajima
M., Bai Y. and Tamada K.), Materials Science & Engineering A, 627,pp. 351-
359(2015).
・ Fatigue behavior of friction stir welded Al-Mg-Sc alloy (Besel M.,
Besel Y., Alfaro
Mercado U., Kakiuchi T. and Uematsu Y.), International Journal of Fatigue. 77,
pp.1-11(2015).
・ Effect of hydrogen on fatigue crack propagation behavior of wrought
magnesium
alloy AZ61 in NaCl solution under controlled cathodic potentials
(Kakiuchi T.,
Uematsu Y., Hatano Y., Nakajima M., Nakamura Y. and Taniguchi T.),
Engineering Fracture Mechanics, 137, pp. 88-96 (2015).
・ Effect of sensitization on corrosion fatigue behavior of type 304
stainless steel
annealed in nitrogen gas (Akita M., Uematsu Y., Kakiuchi T., Nakajima
M.,
Tsuchiyama T., Bai Y. and Isono K.), Materials Science and Engineering A, 640,
pp. 33-41 (2015).
・ Effect of friction stir processing conditions on fatigue behavior and texture
development in A356-T6 cast aluminum alloy (Tajiri A., Uematsu Y.,
Kakiuchi T.,
Tozaki Y., Suzuki Y. and Afrinaldi A.) International Journal of Fatigue, 80,
pp. 192-202 (2015).
・ Fatigue behavior of dissimilar Al alloy/galvanized steel friction stir
spot welds fabricated by a scroll grooved tool without probe (Ibrahim
I., Uematsu Y.,
Kakiuchi T., Tozaki Y. and Mizutani Y.), Science and Technology of Welding
and Joining, 20-8, pp. 670-678 (2015).
・ Fatigue crack paths and properties in A356-T6 aluminum alloy microstructurally
modified by friction stir processing under different conditions (Tajiri A.,
Uematsu Y., Kakiuchi T. and Suzuki Y.), Frattura ed Integrità Strutturale
(Fracture and Structural Integrity), 34-10, pp. 393-400 (2015).
・ EBSD-assisted fractographic analysis of crack paths in magnesium alloy (Takaya S.,
Uematsu Y. and Kakiuchi T., Frattura ed Integrità Strutturale (Fracture and Structural
Structural Integrity), 34-10, pp. 401-407 (2015).
・ Laves相を析出させたNb含有フェライト系ステンレス鋼JFE429EXの大気中および
塩水中における疲労挙動(秋田正之,植松美彦,柿内利文,中島正貴,単 宇航),
日本機械学会論文集(材料力学,機械材料,材料加工),81-830 (2015).
・ Effect of interlayer thickness on fatigue behavior in A5052 aluminum alloy with
diamond-like carbon/anodic-oxide hybrid coating (Uematsu Y., Kakiuchi T.,
Adachi M. and Shinohara T.) Materials Transactions, 56-11, pp. 1793-1799 (2015).
[2014年]
・ Fatigue crack propagation
of AZ61 magnesium alloy under controlled humidity
and
visualization of hydrogen diffusion along the crack wake(Uematsu Y., Kaki-
uchi
T., Nakajima M., Nakamura Y., Miyazaki S. and Makino H.), International
Journal
of Fatigue, 59, pp.234-243(2014).
・ Improvement of fatigue properties in type 304 stainless steel by annealing
treatment in nitrogen gas (Bai Y, Akita M., Uematsu Y., Kakiuchi T., Nakamura Y.
and Nakajima
M.), Materials Science and Engineering A, 607, pp.578-588(2014).
・ Effect of solution treatment
after nitriding on fatigue properties in type 304
stainless
steel (Nakajima M., Nakamura Y., Suzuki K., Bai Y. and Uematsu Y.),
Internatinal Journal of Fatigue, 68, pp.103-110(2014).
・ High cycle fatigue properties
of beta Ti alloy 55Ti-30Nb-10Ta-5Zr, Gum metal
(Akita
M., Nakajima M., Uematsu Y.,Tokaji K. and Kojima T.), Fatigue & Fracture
of Engineering
Materials & Structures, 37, pp.1223-1231(2014) .
・ 渦溝ツールにより作製したA6061/AZ31
異種金属摩擦攪拌スポット接合継手の
疲労挙動 (植松美彦,柿内利文,戸崎康成,麻地剛史),日本機械学会論文集
(材料力学,機械材料,材料加工),Vol.80,No.820 (2014).
[2013年]
・ Fatigue behavior of A356 Cast Aluminum Alloy Microstructually Modified
by
Friction Stir Processing under Low Strain Rate Condition (T. Kakiuchi,
Y. Ue-
matsu and Y. Tozaki), Key Engineering Materials, 525-526, pp.169-172
(2013).
・ Fatigue properties of Solution-treated Type 304 Stainless Steel after
nitriding
(Y. Nakamura, M. Nakajima, T. Shimizu, K. Suzuki, Y. Bai and Y. Uematsu),Key
Engineering Materials, 525-526, pp. 217-220 (2013).
・ Fatigue Test of Small Sized AZ31 Magnesium Alloy using Micropillar
Specimen
(S. Mizuno, T. Kakiuchi and Y. Uematsu), Key Engineering Materials,
525-526.
pp.165-168(2013).
・ Effects of shot peening on fatigue behavior in high speed steel
and cast iron
with spheroidal vanadium carbides dispersed within martensitic-matrix
micro-
structure (Y. Uematsu, T. Kakiuchi, K. Tokaji, K. Nishigaki and M.
Ogasawara),
Materials Science & Engineeing A, 561, pp.386-393(2013).
・ オーステナイト系ステンレス鋼SUS347の大気中および塩水中の疲労挙動に及ぼす
Laves相析出の影響(秋田正之,植松美彦,柿内利文,髙崎陽介,中島正貴,中村
裕紀),日本機械学会論文集(A編),79-799,pp.239-248(2013-3).
・ Fatigue behavior of dissimilar
A6061/rolled steel (SS400) friction stir welds
(Uematsu
Y., Kakiuchi T., Kondoh E., Tozaki Y. and Ibrahim I.), Journal of the
Japan
Welding Society, 31-2, pp.112-118(2013).
・ DLC/WC-12Co溶射複合皮膜を有するアルミニウム合金A5052の疲労挙動に及ぼす
中間層厚さの影響および疲労破壊機構(柿内利文,植松美彦,武川 誠,寺谷武馬,
小林圭史,原田良夫),材料,62,12,pp.738-743(2013).
・ 繰返し予ひずみを受けたSUS304の高サイクル疲労挙動に及ぼす加工誘起マルテン
サイト変態の影響(植松美彦,柿内利文,秋田正之,中島正貴,中村裕紀,矢島
拓美),材料,62,12,pp.744-749(2013).
[2012年]
・ Stress corrosion cracking behavior of the wrought magnesium alloy AZ31
under controlled cathodic potentials (Y. Uematsu, T. Kakiuchi and
M. Naka-
jima), Materials Science and Engineering, A, 531, pp.171-177(2012).
・ DLC皮膜を被覆した展伸マグネシウム合金AZ61の疲労挙動に及ぼす膜弾性
係数の影響(柿内利文,植松美彦,寺谷武馬,原田良夫),日本機械学会論文
集(A編),78-788,pp.403-410(2012).
・ フェライト系ステンレス鋼SUS444溶接継手の疲労挙動に及ぼす溶接金属と
試験温度の影響(秋田正之,植松美彦,柿内利文,中島正貴,山岸敬之,
縣 幸男,日本機械学会論文集(A編),78-788,pp.432-441(2012).
・ Fatigue Behavior of A5052 Aluminum Alloy with DLC/Thermally Sprayed
WC-12Co Hybrid Coatings(Y. Uematsu, T. Kakiuchi, T. Teratani, Y. Koba-
yashi and Y. Harada), Advanced Materials Research, 538-541, pp.1693-
1696(2012).
・ Comparative study of fatigue behavior in dissimilar Al alloy/steel
and
Mg alloy/steel friction stir spot welds fabricated by scroll grooved
tool
without probe (Y. Uematsu, T. Kakiuchi, Y. Tozaki and H. Kojin),
Science
and Technology of Welding and Joining, 17-5, pp.348-356(2012).
・ 非破壊検査による摩擦攪拌接合継手の接合欠陥検出と疲労寿命予測(植松
美彦,重松一典,山本優一郎,今井尚樹,野村孝彦,福田敏彦,柿内利文,
近藤英介),溶接学会論文集,30-3,pp.220-227(2012).
・ Some factors exerting an influence on the coaxing effect of austenitic
stainless steels (M. Akita, M. Nakajima, Y. Uematsu, K. Tokaji and
J. -W. Jung),
Fatigue & Fracture of Engineering Materials & Structures, 35-12, pp.1095-
1104(2012).
[2011年]
・ Hydrogen Embrittlement Type Stress Corrosion Cracking Behavior of
Wrought
Magnesium Alloy AZ31 (Y. Uematsu, T. Kakiuchi and M. Nakajima), Procedia
Engineering, 10, 578-582(2011).
・ Effect of Film Elastic Modulus on Fatigue Behaviour of DLC-Coated
Wrought
Magnesium Alloy AZ31(T. Kakiuchi, Y. Uematsu, T. Teratani and Y.
Harada),
Procedia Engineering, 10, 1087-1090(2011)
・ .Effect of Quantity of Martensitic Transformation on Fatigue Behavior
in Type
Stainless Steel (M. Nakajima, Y. Uematsu, T. Kakiuchi, M. Akita and K. Tokaji),
Procedia Engineering, 10, 299-304(2011).
・ Microstructural Changes of High-Chromium Ferritic Stainless Steel
Subjected to
Cyclic loading in 475C Embrittlement Region (M, Akita, T. Kakiuchi
and Y. Uema-
tsu), Procedia Engineering, 10, 100-105(2011).
・ SUS304鋼の疲労挙動におよぼす加工誘起マルテンサイト変態量とEBSDによる
相変態解析(中島正貴,植松美彦,柿内利文,秋田正之,戸梶惠郎,村崎竜博),
材料,60-9,796-802(2011).
・ 高Crフェライト系ステンレス鋼の疲労挙動におよぼすσ相ぜい性の影響(秋田
正之,植松美彦,柿内利文,戸梶惠郎,中島正貴),材料,60-10,879-884
(2011).
・ 硬さおよび介在物寸法の異なる合金鋼の疲労挙動に及ぼすDLC皮膜の影響
(植松美彦,柿内利文,丸地克弥,寺谷武馬,原田良夫),材料,60-12,1097-
1103(2011).
・ Fatigue behaviour of dissimilar friction stir spot welds between A6061-T6 and
low carbon steel sheets welded by a scroll grooved tool without probe
(Y.
Uematsu, K. Tokaji, Y. Tozaki, Y. Nakashima and T. Shimizu, Fatigue
and
Fracture of Engineering Materials and Structures, 34, 581-591(2011).
・ Improvement of corrosion fatigue strength of magnesium alloy by multilayer
diamond-like carbon coatings (Y. Uematsu, T. Kakiuchi, T. Teratani, Y. Harada
and K. Tokaji), Surface and coatings Technology ,205, p.2778-2784(2011)
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