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材料力学研究室(岩本剛研究室) Laboratory of Mechanics of Materials (Takeshi Iwamoto Laboratory)
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|>|CENTER:進行中のテーマ Ongoing research topics|
|氏名 Name|CENTER:題目 Title|
|[[曹 博>BCao]] &br; [[Cao BO>BCao]]|鉄基形状記憶合金における応力誘起マルテンサイト変態の体積抵抗率測定による評価とひずみ速度依存性評価への応用 &br;An experimental evaluation on stress-induced martensitic transformation in Fe-based shape memory alloy by a measurement of volume resistivity and its application to estimate its rate sensitivity|
|[[Truong Duc TRINH>TTrinh]]|多結晶 TRIP 鋼の変形挙動の有限要素シミュレーション&br;Finite element simulation of deformation behavior of polycrystal TRIP steel|
|[[高 崇>CGao]] &br;[[Chong GAO>CGao]]|超高ひずみ速度下における純アルミニウムの熱・力学的挙動の試験法の提案ならび妥当性評価 &br; A proposition of testing method at super-high strain rate to measure thermo-mechanical behavior in pure aluminum and an evaluation of its validity |
|[[吉田 志紅真>Shiguma YOSHIDA]] &br; [[Shiguma YOSHIDA>Shiguma YOSHIDA]]|TRIP鋼を用いた予き裂入り薄板試験片における引張変形挙動の検討 &br;An investigation on tensile deformation behavior of pre-cracked plate specimens made of TRIP steel|
|[[田村 大貴>DTamura]] &br; [[Daiki TAMURA>DTamura]]|SUS304製薄板引張試験片に生じる特異な変形挙動の全視野計測法による観察 &br;An Observation of Anomalous Deformation Behavior in Thin Tensile Specimens Made of SUS304 by Full-field Measurement Methods|
|[[陳 清源>QChen]] &br; [[Qingyuan CHEN>QChen]]|???|
|[[西垣 祐作>YNishigaki]] &br; [[Yusaku NISHIGAKI>YNishigaki]]|動的ひずみ時効がSUS304製薄板の引張試験時に発生する局所変形帯の移動に及ぼす影響の有限要素解析 &br;Finite element analysis in the effect of dynamic strain aging on evolution of localized deformation caused during the tensile test of thin specimen made of SUS304|
|[[孫 潜>QSun]] &br; [[Qian SUN>QSun]]|????|
|[[松岡 駿輔]] &br; [[Shunsuke MATSUOKA]]|????|
|[[下畑 智暉]] &br; [[Tomoki SHIMOHATA]]|????|
|[[倉元 啓志]] &br; [[Keishi KURAMOTO]]|????|
|[[王 毓博>YWang]] &br; [[Yubo WANG>YWang]]|????|
|[[胡 壱惠]] &br; [[Yihui HU]]|????|
|[[任 義超]] &br; [[Yichao REN]]|????|
|[[張 崇碧]] &br; [[Chongbi ZHANG]]|????|
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&aname(pasttopics);
|>|>|CENTER:過去の卒論・修論テーマ Past titles of the dissertations|
|2019年度 &br;Academic year in 2019|博士課程前期 &br;Master's Course|[[鉄基形状記憶合金の繰り返し変形特性の実験的研究と形状記憶効果向上への応用>BDuan]] &br;[[An experimental study on cyclic deformation behavior of Fe-based shape memory alloy and its application to improvement of shape memory effect>BDuan]]|
|~|~|[[鉄基形状記憶合金管継手の継手強度に及ぼす拡径加工速度の影響および有限要素法によるメカニズム解明>SMurugan]] &br; [[Effect of deformation speed in diameter-expansion process on strength of joints made of Fe-based shape memory alloy and clarification of its mechanisms by finite element method>SMurugan]]|
|2018年度 &br;Academic year in 2018|博士課程前期 &br;Master's Course|[[様々なひずみ速度におけるSUS304中のひずみ誘起マルテンサイト変態ならびに熱的挙動の評価>onishi]] &br;[[An experimental evaluation of strain-induced martensitic transformation and thermal behavior in SUS 304 at various strain rates>onishi]]|
|~|~|[[オーステナイト鋼における特異変形ならびに衝撃変形挙動の数値解析>itiyama]] &br;[[Numerical analyses on anormal and impact deformation behavior in austenitic steel>itiyama]]|
|~|~|[[超高ひずみ速度下における純アルミニウムの熱・力学的挙動の試験法の提案ならび妥当性評価>CGao]] &br;[[A proposition of testing method at super-high strain rate to measure thermo-mechanical behavior in pure aluminum and an evaluation of its validity>CGao]]|
|~|学部生 &br;Undergraduates|[[動的ひずみ時効がSUS304製薄板の引張試験時に発生する局所変形帯の移動に及ぼす影響の有限要素解析>YNishigaki]] &br; [[Finite element analysis in the effect of dynamic strain aging on evolution of localized deformation caused during the tensile test of thin specimen made of SUS304>YNishigaki]]|
|2017年度 &br;Academic year in 2017|博士課程前期 &br;Master's Course|[[種々の変形速度における鉄基系形状記憶合金管継手の軸方向強度評価>YYamamoto]] &br;[[An estimation on axial strength of pipe joint made of Fe-based shape memory alloy at various deformation rate>YYamamoto]]|
|~|~|[[鉄基形状記憶合金の変形挙動の有限要素シミュレーション>ABudiaman]] &br; [[Finite element simulation of deformation behavior of Fe-based shape memory alloy>ABudiaman]]|
|~|学部生 &br;Undergraduates|SUS304製薄板引張試験片に生じる特異な変形挙動の全視野計測法による観察 &br;An Observation of Anomalous Deformation Behavior in Thin Tensile Specimens Made of SUS304 by Full-field Measurement Methods|
|~|~|TRIP鋼製予き裂入り薄板試験片の引張試験によるエネルギー吸収能のひずみ速度依存性評価 &br;An evaluation on strain rate sensitivity of energy absorption capacity during tensile test using pre-cracked thin specimens made of TRIP steel|
|2016年度 &br;Academic year in 2016|博士課程後期 &br;Doctral Course|様々な変形速度におけるTRIP鋼における衝撃エネルギー吸収特性の実験的ならびに数値解析的研究 &br; The experimental and computational studies on the impact energy absorption characteristic of TRIP steel at various deformation rate|
|~|博士課程前期 &br;Master's Course|[[三次元有限要素解析によるTRIP鋼予き裂試験片のエネルギー吸収特性に及ぼす変位速度の影響の検討>AHayashi]] &br;[[A study on effect of deformation rate on the energy absorption characteristic of pre-cracked specimens of TRIP steel by three dimensional finite element simulation>AHayashi]]|
|~|学部生 &br;Undergraduates|破面ならびに組織観察によるSUS304を用いたスモールパンチ試験における破壊様式の速度依存性の検討 &br;A study on rate sensitivity of fracture mode in small punch test using SUS304 by fractographic and microstructural observations|
|2015年度 &br;Academic year in 2015|博士課程前期 &br;Master's Course|[[鉄基形状記憶合金の速度依存引張変形挙動と管継手強度の速度依存性評価>KFujita]] &br; [[An evaluation on rate-sensitive tensile deformation behavior and rate sensitivity of strength of piping joints made of Fe-based shape memory alloy>KFujita]]|
|~|~|[[種々のひずみ速度におけるTRIP鋼の相変態・熱・力学特性の実験的評価>YMoriyama]] &br;[[An experimental evaluation of transformation-thermo-mechanical properties in TRIP steel at various strain rate>YMoriyama]]|
|~|~|[[改良型テイラー衝撃試験法の提案ならびに妥当性評価>FIwasaki]] &br; [[A proposition of modified Taylor impact test method and evaluation of its validity>FIwasaki]]|
|~|学部生 &br;Undergraduates|改良型テイラー衝撃試験法における応力-ひずみ曲線測定に及ぼす試験片形状の影響の検討 &br;An investigation for effect of shape of specimen on measured stress-strain curve by modified Taylor impact test|
|~|~|種々の変形速度における鉄基系形状記憶合金管継手の軸方向強度評価 &br;An estimation on axial strength of pipe joint made of Fe-based shape memory alloy at various deformation rate|
|2014年度 &br;Academic year in 2014|学部生 &br;Undergrads|粒子法によるTRIP鋼の変形挙動の数値シミュレーション &br; A computational simulation on deformation behavior of TRIP steel by the particle method|
|~|~| [[三次元有限要素解析によるTRIP鋼予き裂試験片のエネルギー吸収特性に及ぼす変位速度の影響の検討>AHayashi]] &br;[[A study on effect of deformation rate on the energy absorption characteristic of pre-cracked specimens of TRIP steel by three dimensional finite element simulation>AHayashi]]|
|2013年度 &br;Academic year in 2013|博士課程前期 &br;Master's Course|磁性評価によるTRIP鋼におけるマルテンサイト変態量の定量化およびひずみ速度依存性評価 &br;A quantification of amount of martensite transfomed in TRIP steel by measurement of magnetism and an evaluation of its rate sensitivity|
|~|~|様々な変形速度におけるTRIP鋼における衝撃エネルギー吸収特性の実験的ならびに数値解析的研究 &br;The experimental and computational studies on the impact energy absorption characteristic of TRIP steel at various deformation rate|
|~|~|鉄系形状記憶合金の曲げ変形挙動における変形速度依存性評価と継手開発への応用 &br;Evaluation for deformation rate sensitivity on bending deformation behavior of Fe-based shape memory alloyand application to development of piping joint|
|~|~|分割式 Hopkinson 棒法及び Taylor 試験法に基づく衝撃圧縮試験法の高精度化 &br;An enhancement of precision in impact compressive test based on the split Hopkinson pressure bar method and Taylor impact test|
|~|学部生 &br;Undergraduates|TRIP鋼におけるマルテンサイト変態の比透磁率測定による評価 &br;An experimental evaluation on martensitic transformation in TRIP steel by measurement of magnetic permiability|
|~|~|種々の変形速度における鉄系形状記憶合金管継手の曲げ強度評価 &br;An estimation on bending strength of pipe joint made of Fe-based shape memory alloy at various deformation rate|
|~|~|検力ブロックを用いたテイラー試験法の高精度化の検証 &br;A verification of higher precision of Taylor impact test by using force sensing block|
|2012年度 &br;Academic year in 2012|学部生 &br;Undergraduates|単結晶TRIP鋼を対象とした変態-熱結晶塑性有限要素解析による配置および境界条件の影響 &br;A study on effect of configuration by finite element analysis with periodic boundary condition based on transformation-thermo-crystal-plasticity theory for single crystal TRIP steel|
|~|~|レベル集合法による界面移動の解析とX-FEMの導入についての検討 &br;Analysis of interface motion by level-set method and study on the introdution of X-FEM|
|~|~|種々の変形速度におけるTRIP鋼の曲げ変形挙動の有限要素シミュレーション &br;Finite element simulation on bending deformation behavior of TRIP steel at various deformation rate|
|~|~|J積分を用いたTRIP鋼におけるエネルギー吸収特性のひずみ速度依存性の実験的評価 &br;An experimental evaluation on rate sensitivity of energy absorption characterisitic in TRIP steel by J-integral|
|2011年度 &br;Academic year in 2011|博士課程前期 &br;Master's Course|塑性変形を受けるTRIP鋼の相変態・熱・力学的挙動の実験的評価 &br;An experimental evaluation on phase transformation-thermo-mechanical behavior of TRIP steel under plastic deformation|
|~|~|曲げ変形支配下におけるTRIP鋼の弾塑性破壊靭性のひずみ速度依存性評価 &br;Evaluation for rate senstivity of fracture toughness of TRIP steel under bending deformation|
|~|学部生 &br;Undergraduates|塑性変形を受けるTRIP鋼のインピーダンス変化の実験的評価 &br;An experimental evaluation on change in impedance of TRIP steel subjected to plastic deformation|
|~|~|TRIP鋼における弾塑性破壊靭性値のひずみ速度依存性の実験的評価 \br;An experimental evaluation on strain-rate sensitivity of elasto-plastic fracture toughness in TRIP steels|
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|>|>|>|>|>|>|CENTER:(Note: If you cannot read the information of a paper, the paper is written in Japanese)|
|著者 Author|題目 Title|掲載雑誌 Name of Journal|巻 Volume|号 Number|年 Year|ページ Pages|
|Truong Duc Trinh and Takeshi IWAMOTO|A Review on Numerical Analyses of Martensitic Phase Transition in Mono and Polycrystal Transformation-induced Plasticity Steel by Crystal Plasticity Finite Element Method with Length Scales|Chapter 17. In: Holm Altenbach and Andrea Ochsner (eds.) State of the Art and Future Trends in Material Modeling, Advanced Structured Materials, Springer|100||2019|401 – 420|
|Cao Bo and Takeshi IWAMOTO|An Experimental Investigation on Rate Dependency of Thermomechanical and Stress-induced Martensitic Transformation Behavior in Fe-28Mn-6Si-5Cr Shape Memory Alloy Under Compression|International Journal of Impact Engineering|133| |2019|103284-1-14&br; published online at 30 Apr.,2019|
|Truong Duc Trinh and Takeshi IWAMOTO|A Computational Simulation of Martensitic Transformation in Polycrystal TRIP Steel by Crystal Plasticity FEM with Voronoi Tessellation|Key Engineering Materials|794||2019|71-77|
|Cao Bo and Takeshi IWAMOTO|A New Method to Measure Volume Resistivity During Tension for Strain Rate Sensitivity in Deformation and Transformation Behavior of Fe-28Mn-6Si-5Cr Shape Memory Alloy|International Journal of Mechanical Sciences|146-147|9|2018|445-454 &br; published online at 28 Sep.,2017|
|Chong Gao and Takeshi IWAMOTO|Finite Element Analysis on a Newly-Modified Method for the Taylor Impact Test to Measure the Stress-Strain Curve by the Only Single Test Using Pure Aluminum|Metals|8|8|2018|642-1-16|
|Hang Thi Pham and Takeshi IWAMOTO|An Evaluation of Fracture Properties of Type-304 Austenitic Stainless Steel at High Deformation Rate Using the Small Punch Test|International Journal of Mechanical Sciences|144||2018|249-261 &br; published online at 2 Jun.,2018|
|Bo Cao and Takeshi IWAMOTO|An experimental study on strain rate sensitivity of strain-induced martensitic transformation in SUS304 by real-time measurement of relative magnetic permeability|Steel Research International|88|12|2017|1700022|
|Takeshi IWAMOTO and Bo Cao|A review on experimental investigations of rate sensitivity of deformation behavior in Fe-based shape memory alloys|Chapter 3. In: Qing-Ping Sun, Ryosuke Matsui, Kohei Takeda and Elzbieta Pieczyska (eds.) Advances in Shape Memory Materials, Advanced Structured Materials, Springer|73||2017|31 – 42|
|Yasuhiro Yamamoto, Kazuki Fujita and Takeshi IWAMOTO|An experimental study on axial joint strength made of Fe-28Mn-6Si-5Cr shape memory alloy at various deformation speeds|Key Engineering Materials|725||2017|99 – 104|
|Anthony Budiaman, Kazuki Fujita and Takeshi IWAMOTO|A study on tensile deformation behavior in Fe-based shape memory alloy by rate sensitive transformation kinetics model|Key Engineering Materials|725||2017|77 – 81|
|Bo Cao, Yutaro Moriyama, Kazuki Fujita and Takeshi IWAMOTO|A measurement of volume resistivity in Fe-based shape memory alloy under tensile deformation and its evaluation of strain rate sensitivity|Key Engineering Materials|725||2017| 72 – 76|
|Asuka Hayashi and Takeshi IWAMOTO|An experimental evaluation of energy absorption of TRIP steel by small punch test|Key Engineering Materials|725|| 2017|60 – 65|
|Hang Thi Pham and Takeshi IWAMOTO|A computational investigation on small punch test for evaluating fracture toughness of TRIP steel at higher deformation rate| Key Engineering Materials|725||2017|66 – 71|
|Hang Thi Pham and Takeshi IWAMOTO|A computational investigation on bending deformation behavior at various deflection rates for enhancement of absorbable energy in TRIP steel|Metallurgical and Materials Transactions A|47|8|2016|3897-3911|
|Takeshi IWAMOTO and Hang Thi Pham|Review on Spatio-Temporal Multiscale Phenomena in TRIP Steels and Enhancement of Its Energy Absorption|Chapter 7. In: Holm Altenbach, Tetsuya Matsuda and Dai Okumura (eds.) From Creep Damage Mechanics to Homogenization Methods - A Liber Amicorum to Celebrate the Birthday of Nobutada Ohno, Advanced Structured Materials, Springer|64||2015|143 – 161|
|Hang Thi Pham and Takeshi IWAMOTO|An experimental investigation on rate sensitivity of fracture-mechanical characteristics in 304 austenitic stainless steel under bending deformation|ISIJ International|55|12|2015|2661 – 2666|
|岩本 剛,錦織 恵造,藤田 一輝|Fe-28Mn-6Si-5Cr形状記憶合金における応力誘起マルテンサイト変態に対するキネティクスモデルの提案|鉄と鋼|101|7|2015|378 – 383|
|岩本 剛,錦織 恵造,藤田 一輝|Fe-28Mn-6Si-5Cr形状記憶合金の曲げ変形挙動における変形速度依存性の実験的評価|鉄と鋼|101|7|2015|400 – 405|
|Fumiaki Iwasaki, Nobuhiko Kii and Takeshi IWAMOTO|Verification of Taylor impact test by using force sensing block|Key Engineering Materials|626||2015|444 – 449|
|Yutaro Moriyama, Daiki Inoshita and Takeshi IWAMOTO|An evaluation on strain dependency and strain rate sensitivity of martensitic transformation generated in TRIP steel by measurement of magnetic permeability|Key Engineering Materials|626||2015|432 – 437|
|Hang Thi Pham, Leishi Shi and Takeshi IWAMOTO|An evaluation of energy absorption under three-point bending deformation at higher deflection rate for TRIP steel|Key Engineering Materials|626||2015|340 – 346|
|Kazuki Fujita, Keizo Nshikori and Takeshi IWAMOTO|An estimation of joint strength by using Fe-based shape memory alloy subjected to bending deformation at various deformation rate|Key Engineering Materials|626||2015|228 – 233|
|Nobuhiko Kii, Takeshi IWAMOTO, Alexis Rusinek and Tomasz Jankowiak|A study on reduction of friction in impact compressive test based on the split Hopkinson pressure bar method by using a hollow specimen|Applied Mechanics and Materials|566||2014|548 – 533|
|Keizo Nishikori and Takeshi IWAMOTO|Effect of deformation rate on bending deformation behavior of Fe-based shape memory alloy|Applied Mechanics and Materials|566||2014|116 – 121|
|Daiki Inoshita and Takeshi IWAMOTO|A study on rate sensitivity of impedance in TRIP steel during deformation at various strain rate under two kinds of deformation mode|Applied Mechanics and Materials|566||2014|140 – 145|
|岩本 剛,横山 隆|ホプキンソン棒法における円柱状試験片の細長比および応力棒との直径比が応力評価へ及ぼす影響—有限要素シミュレーションによる検討—|実験力学|13|3|2013|239 – 243|
|Leishi Shi, Takeshi IWAMOTO and Shinya Hashimoto|An experimental study on rate sensitivity of J-integral and its evaluation by small punch test for TRIP steel|Engineering Transactions|61|2|2013|119 – 136|
|岩本 剛,橋本慎也,川端敏之,石 磊石|オーステナイト系ステンレス鋼におけるエネルギー吸収特性の速度依存性のJ積分による実験的評価|鉄と鋼|99|4|2013|322 - 328|
|Daiki Inoshita, Shiro Yamanaka and Takeshi IWAMOTO|An experimental evaluation on change in impedance of TRIP steel subjected to plastic deformation at various strain rates|Key Engineering Materials|535-536||2013|445 - 448|
|Takeshi IWAMOTO, Shiro Yamanaka and Alexis Rusinek|Deformation mode dependency on strain rate sensitivity of volume resistivity in TRIP steel|Key Engineering Materials|535-536||2013|473 - 476|
|Takeshi IWAMOTO and Takashi Yokoyama|Effects of radial inertia and end friction in specimen geometry in split Hopkinson pressure bar tests: A computational study|Mechanics of Materials|51||2012|97 - 109|
|Shin-ya Hashimoto, Takeshi IWAMOTO and Toshiyuki Sawa|Bending deformation behavior of TRIP steel at several deflection rates|Materials Research Innovations|15|Supplement 1|2011|s122 - s125|
|Shiro Yamanaka, Takeshi IWAMOTO and Toshiyuki Sawa| A study on capturing a transformation-thermomechanical behavior of TRIP steel during impact compression|Materials Research Innovations|15|Supplement 1|2011|s131 - s134|
|岩本 剛,山中志郎,横山 隆,沢 俊行|分割式ホプキンソン棒法における衝撃圧縮試験片に作用する慣性力および摩擦の影響: 数値シミュレーションによる検討|日本機械学会論文集A編|76|772|2010|1596 - 1602|
|He Dan, Toshiyuki Sawa, Takeshi IWAMOTO and Yuya Hirayama|Stress Analysis and strength evaluation of scarf adhesive joints subjected to static tensile loadings|International Journal of Adhesion and Adhesive|30||2010|387 - 392|
|Takeshi IWAMOTO, Eiji Murakami and Toshiyuki Sawa|A finite element simulation on creep behavior in welded Joint of chrome-molybdenum steel including interaction between void evolution and dislocation dynamics|Technische Mechanik| 30|1-3|2010|157 - 168|
|Takeshi IWAMOTO, Toshimasa Nagai and Toshiyuki Sawa|Experimental and computational investigations on strain rate sensitivity and deformation behavior of bulk materials made of epoxy resin structural adhesive|International Journal of Solids and Structures|47|2|2010|175 - 185|
|岩本 剛,永井利正,沢 俊行,倉本英哲,上杉憲雄|構造用エポキシ系接着剤バルク材の変形挙動のひずみ速度依存性 (第二報 三次元構成式定式化と有限要素シミュレーション)|日本機械学会論文集A編|75|758|2009|1402 - 1408|
|岩本 剛,永井利正,沢 俊行,倉本英哲,上杉憲雄|構造用エポキシ系接着剤バルク材の変形挙動のひずみ速度依存性 (第一報 塑性せん断ひずみ速度の定式化)|日本機械学会論文集A編|75|758|2009|1395 - 1401|
|永井利正,岩本 剛,沢 俊行,倉本英哲,上杉憲雄|衝撃荷重下における構造用エポキシ系接着剤を用いた接着継手の有限要素応力解析|日本機械学会論文集A編|75|757号|2009|1141 - 1147|
|市川 幸平,進 祐一郎,沢 俊行,岩本 剛|引張り荷重を受ける異種被着体段付き重ね合わせ接着継手の三次元有限要素応力解析と強度推定|日本機械学会論文集A編|75|751|2009|279 - 286|
|Toshiyuki Sawa, Yosuke Akita, Takeshi IWAMOTO|Two-dimensional stress analysis of adhesive butt joints filled with elastic circular fillers in the adhesive subjected to static tensile loadings|Journal of Adhesion Science and Technology|23|2|2009|195 - 214|
|岩本 剛,Mohammed Cherkaoui,沢 俊行|数値シミュレーションによるTRIP鋼の衝撃変形挙動の評価|日本機械学会論文集A編|75|752|2009|404 - 409|
|Toshimasa Nagai, Takeshi IWAMOTO, Toshiyuki Sawa, Yasuhisa Sekiguchi, Hideaki Kuramoto and Norio Uesugi|An experimental study on the impact deformation and the strain rate sensitivity in some structural adhesives|International Journal of Modern Physics B|22|31-32|2008|5590 - 5595|
|Takeshi IWAMOTO, Mohammed Cherkaoui and Toshiyuki Sawa|A study on impact deformation and transformation behavior of TRIP steel by finite element simulation and experiment|International Journal of Modern Physics B|22|31-32|2008|5985 - 5990|
|岩本 剛,Mohammed Cherkaoui,Esteban P. Busso,澤 俊行,村上 英治|レベル集合法に基づいた固体材料中の拡散駆動界面運動の有限要素シミュレーション|日本機械学会論文集 A 編|74|745|2008|1191 - 1197|
|Takeshi IWAMOTO, Mohammed Cherkaoui and Esteban P. Busso|A Finite Element-based Level-set Method of an Interface Motion Driven by a Diffusion Field: Application to a Phase Transformation Problem|Computational Materials Science|44|2|2008|792 - 801|
|Takeshi IWAMOTO, Toshio Tsuta and Toshiyuki Sawa|A numerical study of fibrous tissue formation of type I collagen under mechanical stimuli by reaction - diffusion equations with motion of fibroblasts|The Open Mechanics Journal|2||2008|47 - 56|
|岩本 剛,澤 俊行|Fourier 変換画像処理解析法を用いた TRIP 鋼におけるマルテンサイト相の幾何学的配向性解析|材料|57|6|2008|590 - 595|
|岩本 剛,澤 俊行,久保 伸二|単結晶TRIP鋼の変態-結晶塑性構成式の定式化とセルオートマトン法による変態・変形挙動の数値シミュレーション|材料|57|3|2008|219 - 224|
|澤 俊行,天摩 勝洋,秋田 陽介,岩本 剛|曲げモーメントを受ける層内に円形弾性充填物を有する突合せ接着継手の二次元応力解析|日本接着学会誌|44|2|2007|41 - 52|
|市川 幸平,永井 利正,澤 俊行,岩本 剛|静的曲げモーメントを受ける同種材料段付き重ね合わせ接着継手の三次元有限要素応力解析と強度推定|日本接着学会誌|44|1|2007|4 - 11|
|Takeshi IWAMOTO, Mohammed Cherkaoui and Esteban P. Busso|A numerical investigation of Interface dynamics during martensitic transformation in a shape memory alloy using the level-set method|Key Engineering Materials|340 - 341||2007|1199 - 1204|
|Takeshi IWAMOTO and Toshio Tsuta|Finite element simulation of martensitic transformation in single-crystal TRIP steel based on crystal plasticity with cellular automata approach|Key Engineering Materials|274 - 276||2004|679 - 684|
|岩本 剛,澤 俊行,佐々木 理洋|Green 関数を用いた TRIP 鋼の巨視的構成式とその変形挙動の数値シミュレーション|材料|53|12|2004|1365 - 1370|
|Takeshi IWAMOTO|Multiscale computational simulation of deformation behavior of TRIP steel with growth of martensitic particles in unit cell by asymptotic homogenization method|International Journal of Plasticity|20|4-5|2004|841 - 869|
|Toshio Tsuta, Yajun Yin and Takeshi IWAMOTO|Micro damage evolution analysis of target impacted by projectile|JSME International Journal Ser. A|46|2|2003|109 - 118|
|Toshio Tsuta, Takeshi IWAMOTO and Bunko Wang|Micro-Morphology Generation in In-Vessel and Twin-Roll Castings under Magnetic Excitation by the Cellular Automaton Approach|Key Engineering Materials|233 - 236||2002|521 - 528|
|Takeshi IWAMOTO and Toshio Tsuta|Assessment of geometrical orientation of martensitic particles in TRIP steel by Fourier and wavelet transformation image analyses|Key Engineering Materials|233 - 236||2002|627 - 636|
|Takeshi IWAMOTO and Toshio Tsuta|Computational simulation on deformation behavior of CT specimens of TRIP steel under mode I loading for evaluation of fracture toughness|International Journal of Plasticity|18|11|2002|1583 - 1606|
|武田 雄策,蔦 紀夫,岩本 剛|上腕骨-肩複合体系による座位-立位補助運動の筋駆動多体動力学解析|バイオメカニズム|16||2002|253 - 266|
|岩本 剛,蔦 紀夫,藤村 朋宏,金子 治|表情筋の能動・受動特性の in vivo 物性同定システム|日本機械学会論文集A編|68|669|2002|730 - 737|
|Takeshi IWAMOTO, Yoshinobu Kawagishi, Toshio Tsuta and Shin-ichi Morita|Identification of constitutive equation for TRIP steel and its application to improve mechanical properties|JSME International Journal Series A|44|4|2001|443 - 452|
|Yoshihiro Tomita and Takeshi IWAMOTO|Computational prediction of deformation behavior of TRIP steels under cyclic loading|International Journal of Mechanical Sciences|43|9|2001|2017 - 2034|
|Toshio Tsuta, Yajun Yin and Takeshi IWAMOTO|Ductility and brittleness simulation during void evolution process of ductile material using rigid plastic FEM based on Gurson type yield function|Key Engineering Materials|177 - 180||2000|213 - 218|
|岩本 剛,河岸 善信,蔦 紀夫,森田 慎一|TRIP鋼の構成式の同定と機械的性質改善ための応用|日本機械学会論文集A編|66|242|2000|269 - 277|
|Takeshi IWAMOTO and Toshio Tsuta|Computational simulation of the dependence of the austenitic grain size on the deformation behavior of TRIP steels|International Journal of Plasticity|16|7-8|2000|791 - 804|
|Takeshi IWAMOTO and Toshio Tsuta|Fraction tensor measured from micrographs for evaluating the geometrical orientation of martensite in TRIP steel|Materials Science Research International|6|3|2000|173 - 179|
|藤村 朋宏,蔦 紀夫,岩本 剛,金子 治|3次元 in vivo ヒフ力学物性同定システム|バイオメカニズム|15||2000|17 - 30|
|Toshio Tsuta, Tokihiko Umeda, Kazushige Nakahara and Takeshi IWAMOTO|Combined multibody dynamics of link system of wheel loader and control circuit of hydraulic pump|Theoretical and Applied Mechanics|48||1999|261 - 275|
|岩本 剛,蔦 紀夫|オーステナイト相結晶粒径の効果を考慮したTRIP鋼の変形挙動の構成モデル|材料|48|9|1999|997 - 1002|
|岩本 剛,蔦 紀夫,冨田 佳宏|TRIP鋼の変形様式依存性を考慮した構成モデルの定式化|塑性と加工|39巻|454|1998|1144 - 1149|
|Takeshi IWAMOTO, Toshio Tsuta and Yoshihiro Tomita|Investigation on deformation mode dependence of strain-induced martensitic transformation in TRIP steels and modeling of transformation kinetics|International Journal of Mechanical Sciences|40|2-3|1998|173 - 182|
|Yoshihiro Tomita and Takeshi IWAMOTO|Constitutive modeling of TRIP steel and its application to the improvement of mechanical properties|International Journal of Mechanical Sciences|37|12|1995|1295 - 1305|
|冨田 佳宏,原田 陽雄,岩本 剛|TRIP鋼の変形挙動の数値シミュレーション|日本機械学会論文集A編|60|575|1994|1652 - 1659|
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#author("2019-12-05T14:23:59+09:00","","") CENTER:&size(25){研究内容 (Research Works)}; #author("2019-12-05T15:15:07+09:00","","") &br; &aname(topics); |>|CENTER:進行中のテーマ Ongoing research topics| |氏名 Name|CENTER:題目 Title| |[[曹 博>BCao]] &br; [[Cao BO>BCao]]|鉄基形状記憶合金における応力誘起マルテンサイト変態の体積抵抗率測定による評価とひずみ速度依存性評価への応用 &br;An experimental evaluation on stress-induced martensitic transformation in Fe-based shape memory alloy by a measurement of volume resistivity and its application to estimate its rate sensitivity| |[[Truong Duc TRINH>TTrinh]]|多結晶 TRIP 鋼の変形挙動の有限要素シミュレーション&br;Finite element simulation of deformation behavior of polycrystal TRIP steel| |[[高 崇>CGao]] &br;[[Chong GAO>CGao]]|超高ひずみ速度下における純アルミニウムの熱・力学的挙動の試験法の提案ならび妥当性評価 &br; A proposition of testing method at super-high strain rate to measure thermo-mechanical behavior in pure aluminum and an evaluation of its validity | |[[吉田 志紅真>Shiguma YOSHIDA]] &br; [[Shiguma YOSHIDA>Shiguma YOSHIDA]]|TRIP鋼を用いた予き裂入り薄板試験片における引張変形挙動の検討 &br;An investigation on tensile deformation behavior of pre-cracked plate specimens made of TRIP steel| |[[田村 大貴>DTamura]] &br; [[Daiki TAMURA>DTamura]]|SUS304製薄板引張試験片に生じる特異な変形挙動の全視野計測法による観察 &br;An Observation of Anomalous Deformation Behavior in Thin Tensile Specimens Made of SUS304 by Full-field Measurement Methods| |[[陳 清源>QChen]] &br; [[Qingyuan CHEN>QChen]]|???| |[[西垣 祐作>YNishigaki]] &br; [[Yusaku NISHIGAKI>YNishigaki]]|動的ひずみ時効がSUS304製薄板の引張試験時に発生する局所変形帯の移動に及ぼす影響の有限要素解析 &br;Finite element analysis in the effect of dynamic strain aging on evolution of localized deformation caused during the tensile test of thin specimen made of SUS304| |[[孫 潜>QSun]] &br; [[Qian SUN>QSun]]|????| |[[松岡 駿輔]] &br; [[Shunsuke MATSUOKA]]|????| |[[下畑 智暉]] &br; [[Tomoki SHIMOHATA]]|????| |[[倉元 啓志]] &br; [[Keishi KURAMOTO]]|????| |[[王 毓博>YWang]] &br; [[Yubo WANG>YWang]]|????| |[[胡 壱惠]] &br; [[Yihui HU]]|????| |[[任 義超]] &br; [[Yichao REN]]|????| |[[張 崇碧]] &br; [[Chongbi ZHANG]]|????| &br; &aname(pasttopics); |>|>|CENTER:過去の卒論・修論テーマ Past titles of the dissertations| |2019年度 &br;Academic year in 2019|博士課程前期 &br;Master's Course|[[鉄基形状記憶合金の繰り返し変形特性の実験的研究と形状記憶効果向上への応用>BDuan]] &br;[[An experimental study on cyclic deformation behavior of Fe-based shape memory alloy and its application to improvement of shape memory effect>BDuan]]| |~|~|[[鉄基形状記憶合金管継手の継手強度に及ぼす拡径加工速度の影響および有限要素法によるメカニズム解明>SMurugan]] &br; [[Effect of deformation speed in diameter-expansion process on strength of joints made of Fe-based shape memory alloy and clarification of its mechanisms by finite element method>SMurugan]]| |2018年度 &br;Academic year in 2018|博士課程前期 &br;Master's Course|[[様々なひずみ速度におけるSUS304中のひずみ誘起マルテンサイト変態ならびに熱的挙動の評価>onishi]] &br;[[An experimental evaluation of strain-induced martensitic transformation and thermal behavior in SUS 304 at various strain rates>onishi]]| |~|~|[[オーステナイト鋼における特異変形ならびに衝撃変形挙動の数値解析>itiyama]] &br;[[Numerical analyses on anormal and impact deformation behavior in austenitic steel>itiyama]]| |~|~|[[超高ひずみ速度下における純アルミニウムの熱・力学的挙動の試験法の提案ならび妥当性評価>CGao]] &br;[[A proposition of testing method at super-high strain rate to measure thermo-mechanical behavior in pure aluminum and an evaluation of its validity>CGao]]| |~|学部生 &br;Undergraduates|[[動的ひずみ時効がSUS304製薄板の引張試験時に発生する局所変形帯の移動に及ぼす影響の有限要素解析>YNishigaki]] &br; [[Finite element analysis in the effect of dynamic strain aging on evolution of localized deformation caused during the tensile test of thin specimen made of SUS304>YNishigaki]]| |2017年度 &br;Academic year in 2017|博士課程前期 &br;Master's Course|[[種々の変形速度における鉄基系形状記憶合金管継手の軸方向強度評価>YYamamoto]] &br;[[An estimation on axial strength of pipe joint made of Fe-based shape memory alloy at various deformation rate>YYamamoto]]| |~|~|[[鉄基形状記憶合金の変形挙動の有限要素シミュレーション>ABudiaman]] &br; [[Finite element simulation of deformation behavior of Fe-based shape memory alloy>ABudiaman]]| |~|学部生 &br;Undergraduates|SUS304製薄板引張試験片に生じる特異な変形挙動の全視野計測法による観察 &br;An Observation of Anomalous Deformation Behavior in Thin Tensile Specimens Made of SUS304 by Full-field Measurement Methods| |~|~|TRIP鋼製予き裂入り薄板試験片の引張試験によるエネルギー吸収能のひずみ速度依存性評価 &br;An evaluation on strain rate sensitivity of energy absorption capacity during tensile test using pre-cracked thin specimens made of TRIP steel| |2016年度 &br;Academic year in 2016|博士課程後期 &br;Doctral Course|様々な変形速度におけるTRIP鋼における衝撃エネルギー吸収特性の実験的ならびに数値解析的研究 &br; The experimental and computational studies on the impact energy absorption characteristic of TRIP steel at various deformation rate| |~|博士課程前期 &br;Master's Course|[[三次元有限要素解析によるTRIP鋼予き裂試験片のエネルギー吸収特性に及ぼす変位速度の影響の検討>AHayashi]] &br;[[A study on effect of deformation rate on the energy absorption characteristic of pre-cracked specimens of TRIP steel by three dimensional finite element simulation>AHayashi]]| |~|学部生 &br;Undergraduates|破面ならびに組織観察によるSUS304を用いたスモールパンチ試験における破壊様式の速度依存性の検討 &br;A study on rate sensitivity of fracture mode in small punch test using SUS304 by fractographic and microstructural observations| |2015年度 &br;Academic year in 2015|博士課程前期 &br;Master's Course|[[鉄基形状記憶合金の速度依存引張変形挙動と管継手強度の速度依存性評価>KFujita]] &br; [[An evaluation on rate-sensitive tensile deformation behavior and rate sensitivity of strength of piping joints made of Fe-based shape memory alloy>KFujita]]| |~|~|[[種々のひずみ速度におけるTRIP鋼の相変態・熱・力学特性の実験的評価>YMoriyama]] &br;[[An experimental evaluation of transformation-thermo-mechanical properties in TRIP steel at various strain rate>YMoriyama]]| |~|~|[[改良型テイラー衝撃試験法の提案ならびに妥当性評価>FIwasaki]] &br; [[A proposition of modified Taylor impact test method and evaluation of its validity>FIwasaki]]| |~|学部生 &br;Undergraduates|改良型テイラー衝撃試験法における応力-ひずみ曲線測定に及ぼす試験片形状の影響の検討 &br;An investigation for effect of shape of specimen on measured stress-strain curve by modified Taylor impact test| |~|~|種々の変形速度における鉄基系形状記憶合金管継手の軸方向強度評価 &br;An estimation on axial strength of pipe joint made of Fe-based shape memory alloy at various deformation rate| |2014年度 &br;Academic year in 2014|学部生 &br;Undergrads|粒子法によるTRIP鋼の変形挙動の数値シミュレーション &br; A computational simulation on deformation behavior of TRIP steel by the particle method| |~|~| [[三次元有限要素解析によるTRIP鋼予き裂試験片のエネルギー吸収特性に及ぼす変位速度の影響の検討>AHayashi]] &br;[[A study on effect of deformation rate on the energy absorption characteristic of pre-cracked specimens of TRIP steel by three dimensional finite element simulation>AHayashi]]| |2013年度 &br;Academic year in 2013|博士課程前期 &br;Master's Course|磁性評価によるTRIP鋼におけるマルテンサイト変態量の定量化およびひずみ速度依存性評価 &br;A quantification of amount of martensite transfomed in TRIP steel by measurement of magnetism and an evaluation of its rate sensitivity| |~|~|様々な変形速度におけるTRIP鋼における衝撃エネルギー吸収特性の実験的ならびに数値解析的研究 &br;The experimental and computational studies on the impact energy absorption characteristic of TRIP steel at various deformation rate| |~|~|鉄系形状記憶合金の曲げ変形挙動における変形速度依存性評価と継手開発への応用 &br;Evaluation for deformation rate sensitivity on bending deformation behavior of Fe-based shape memory alloyand application to development of piping joint| |~|~|分割式 Hopkinson 棒法及び Taylor 試験法に基づく衝撃圧縮試験法の高精度化 &br;An enhancement of precision in impact compressive test based on the split Hopkinson pressure bar method and Taylor impact test| |~|学部生 &br;Undergraduates|TRIP鋼におけるマルテンサイト変態の比透磁率測定による評価 &br;An experimental evaluation on martensitic transformation in TRIP steel by measurement of magnetic permiability| |~|~|種々の変形速度における鉄系形状記憶合金管継手の曲げ強度評価 &br;An estimation on bending strength of pipe joint made of Fe-based shape memory alloy at various deformation rate| |~|~|検力ブロックを用いたテイラー試験法の高精度化の検証 &br;A verification of higher precision of Taylor impact test by using force sensing block| |2012年度 &br;Academic year in 2012|学部生 &br;Undergraduates|単結晶TRIP鋼を対象とした変態-熱結晶塑性有限要素解析による配置および境界条件の影響 &br;A study on effect of configuration by finite element analysis with periodic boundary condition based on transformation-thermo-crystal-plasticity theory for single crystal TRIP steel| |~|~|レベル集合法による界面移動の解析とX-FEMの導入についての検討 &br;Analysis of interface motion by level-set method and study on the introdution of X-FEM| |~|~|種々の変形速度におけるTRIP鋼の曲げ変形挙動の有限要素シミュレーション &br;Finite element simulation on bending deformation behavior of TRIP steel at various deformation rate| |~|~|J積分を用いたTRIP鋼におけるエネルギー吸収特性のひずみ速度依存性の実験的評価 &br;An experimental evaluation on rate sensitivity of energy absorption characterisitic in TRIP steel by J-integral| |2011年度 &br;Academic year in 2011|博士課程前期 &br;Master's Course|塑性変形を受けるTRIP鋼の相変態・熱・力学的挙動の実験的評価 &br;An experimental evaluation on phase transformation-thermo-mechanical behavior of TRIP steel under plastic deformation| |~|~|曲げ変形支配下におけるTRIP鋼の弾塑性破壊靭性のひずみ速度依存性評価 &br;Evaluation for rate senstivity of fracture toughness of TRIP steel under bending deformation| |~|学部生 &br;Undergraduates|塑性変形を受けるTRIP鋼のインピーダンス変化の実験的評価 &br;An experimental evaluation on change in impedance of TRIP steel subjected to plastic deformation| |~|~|TRIP鋼における弾塑性破壊靭性値のひずみ速度依存性の実験的評価 \br;An experimental evaluation on strain-rate sensitivity of elasto-plastic fracture toughness in TRIP steels| &br; &aname(papers); |>|>|>|>|>|>|CENTER:&size(25){査読付き論文 Refereed Journal Papers};| |>|>|>|>|>|>|CENTER:(Note: If you cannot read the information of a paper, the paper is written in Japanese)| |著者 Author|題目 Title|掲載雑誌 Name of Journal|巻 Volume|号 Number|年 Year|ページ Pages| |Truong Duc Trinh and Takeshi IWAMOTO|A Review on Numerical Analyses of Martensitic Phase Transition in Mono and Polycrystal Transformation-induced Plasticity Steel by Crystal Plasticity Finite Element Method with Length Scales|Chapter 17. In: Holm Altenbach and Andrea Ochsner (eds.) State of the Art and Future Trends in Material Modeling, Advanced Structured Materials, Springer|100||2019|401 – 420| |Cao Bo and Takeshi IWAMOTO|An Experimental Investigation on Rate Dependency of Thermomechanical and Stress-induced Martensitic Transformation Behavior in Fe-28Mn-6Si-5Cr Shape Memory Alloy Under Compression|International Journal of Impact Engineering|133| |2019|103284-1-14&br; published online at 30 Apr.,2019| |Truong Duc Trinh and Takeshi IWAMOTO|A Computational Simulation of Martensitic Transformation in Polycrystal TRIP Steel by Crystal Plasticity FEM with Voronoi Tessellation|Key Engineering Materials|794||2019|71-77| |Cao Bo and Takeshi IWAMOTO|A New Method to Measure Volume Resistivity During Tension for Strain Rate Sensitivity in Deformation and Transformation Behavior of Fe-28Mn-6Si-5Cr Shape Memory Alloy|International Journal of Mechanical Sciences|146-147|9|2018|445-454 &br; published online at 28 Sep.,2017| |Chong Gao and Takeshi IWAMOTO|Finite Element Analysis on a Newly-Modified Method for the Taylor Impact Test to Measure the Stress-Strain Curve by the Only Single Test Using Pure Aluminum|Metals|8|8|2018|642-1-16| |Hang Thi Pham and Takeshi IWAMOTO|An Evaluation of Fracture Properties of Type-304 Austenitic Stainless Steel at High Deformation Rate Using the Small Punch Test|International Journal of Mechanical Sciences|144||2018|249-261 &br; published online at 2 Jun.,2018| |Bo Cao and Takeshi IWAMOTO|An experimental study on strain rate sensitivity of strain-induced martensitic transformation in SUS304 by real-time measurement of relative magnetic permeability|Steel Research International|88|12|2017|1700022| |Takeshi IWAMOTO and Bo Cao|A review on experimental investigations of rate sensitivity of deformation behavior in Fe-based shape memory alloys|Chapter 3. In: Qing-Ping Sun, Ryosuke Matsui, Kohei Takeda and Elzbieta Pieczyska (eds.) Advances in Shape Memory Materials, Advanced Structured Materials, Springer|73||2017|31 – 42| |Yasuhiro Yamamoto, Kazuki Fujita and Takeshi IWAMOTO|An experimental study on axial joint strength made of Fe-28Mn-6Si-5Cr shape memory alloy at various deformation speeds|Key Engineering Materials|725||2017|99 – 104| |Anthony Budiaman, Kazuki Fujita and Takeshi IWAMOTO|A study on tensile deformation behavior in Fe-based shape memory alloy by rate sensitive transformation kinetics model|Key Engineering Materials|725||2017|77 – 81| |Bo Cao, Yutaro Moriyama, Kazuki Fujita and Takeshi IWAMOTO|A measurement of volume resistivity in Fe-based shape memory alloy under tensile deformation and its evaluation of strain rate sensitivity|Key Engineering Materials|725||2017| 72 – 76| |Asuka Hayashi and Takeshi IWAMOTO|An experimental evaluation of energy absorption of TRIP steel by small punch test|Key Engineering Materials|725|| 2017|60 – 65| |Hang Thi Pham and Takeshi IWAMOTO|A computational investigation on small punch test for evaluating fracture toughness of TRIP steel at higher deformation rate| Key Engineering Materials|725||2017|66 – 71| |Hang Thi Pham and Takeshi IWAMOTO|A computational investigation on bending deformation behavior at various deflection rates for enhancement of absorbable energy in TRIP steel|Metallurgical and Materials Transactions A|47|8|2016|3897-3911| |Takeshi IWAMOTO and Hang Thi Pham|Review on Spatio-Temporal Multiscale Phenomena in TRIP Steels and Enhancement of Its Energy Absorption|Chapter 7. In: Holm Altenbach, Tetsuya Matsuda and Dai Okumura (eds.) From Creep Damage Mechanics to Homogenization Methods - A Liber Amicorum to Celebrate the Birthday of Nobutada Ohno, Advanced Structured Materials, Springer|64||2015|143 – 161| |Hang Thi Pham and Takeshi IWAMOTO|An experimental investigation on rate sensitivity of fracture-mechanical characteristics in 304 austenitic stainless steel under bending deformation|ISIJ International|55|12|2015|2661 – 2666| |岩本 剛,錦織 恵造,藤田 一輝|Fe-28Mn-6Si-5Cr形状記憶合金における応力誘起マルテンサイト変態に対するキネティクスモデルの提案|鉄と鋼|101|7|2015|378 – 383| |岩本 剛,錦織 恵造,藤田 一輝|Fe-28Mn-6Si-5Cr形状記憶合金の曲げ変形挙動における変形速度依存性の実験的評価|鉄と鋼|101|7|2015|400 – 405| |Fumiaki Iwasaki, Nobuhiko Kii and Takeshi IWAMOTO|Verification of Taylor impact test by using force sensing block|Key Engineering Materials|626||2015|444 – 449| |Yutaro Moriyama, Daiki Inoshita and Takeshi IWAMOTO|An evaluation on strain dependency and strain rate sensitivity of martensitic transformation generated in TRIP steel by measurement of magnetic permeability|Key Engineering Materials|626||2015|432 – 437| |Hang Thi Pham, Leishi Shi and Takeshi IWAMOTO|An evaluation of energy absorption under three-point bending deformation at higher deflection rate for TRIP steel|Key Engineering Materials|626||2015|340 – 346| |Kazuki Fujita, Keizo Nshikori and Takeshi IWAMOTO|An estimation of joint strength by using Fe-based shape memory alloy subjected to bending deformation at various deformation rate|Key Engineering Materials|626||2015|228 – 233| |Nobuhiko Kii, Takeshi IWAMOTO, Alexis Rusinek and Tomasz Jankowiak|A study on reduction of friction in impact compressive test based on the split Hopkinson pressure bar method by using a hollow specimen|Applied Mechanics and Materials|566||2014|548 – 533| |Keizo Nishikori and Takeshi IWAMOTO|Effect of deformation rate on bending deformation behavior of Fe-based shape memory alloy|Applied Mechanics and Materials|566||2014|116 – 121| |Daiki Inoshita and Takeshi IWAMOTO|A study on rate sensitivity of impedance in TRIP steel during deformation at various strain rate under two kinds of deformation mode|Applied Mechanics and Materials|566||2014|140 – 145| |岩本 剛,横山 隆|ホプキンソン棒法における円柱状試験片の細長比および応力棒との直径比が応力評価へ及ぼす影響—有限要素シミュレーションによる検討—|実験力学|13|3|2013|239 – 243| |Leishi Shi, Takeshi IWAMOTO and Shinya Hashimoto|An experimental study on rate sensitivity of J-integral and its evaluation by small punch test for TRIP steel|Engineering Transactions|61|2|2013|119 – 136| |岩本 剛,橋本慎也,川端敏之,石 磊石|オーステナイト系ステンレス鋼におけるエネルギー吸収特性の速度依存性のJ積分による実験的評価|鉄と鋼|99|4|2013|322 - 328| |Daiki Inoshita, Shiro Yamanaka and Takeshi IWAMOTO|An experimental evaluation on change in impedance of TRIP steel subjected to plastic deformation at various strain rates|Key Engineering Materials|535-536||2013|445 - 448| |Takeshi IWAMOTO, Shiro Yamanaka and Alexis Rusinek|Deformation mode dependency on strain rate sensitivity of volume resistivity in TRIP steel|Key Engineering Materials|535-536||2013|473 - 476| |Takeshi IWAMOTO and Takashi Yokoyama|Effects of radial inertia and end friction in specimen geometry in split Hopkinson pressure bar tests: A computational study|Mechanics of Materials|51||2012|97 - 109| |Shin-ya Hashimoto, Takeshi IWAMOTO and Toshiyuki Sawa|Bending deformation behavior of TRIP steel at several deflection rates|Materials Research Innovations|15|Supplement 1|2011|s122 - s125| |Shiro Yamanaka, Takeshi IWAMOTO and Toshiyuki Sawa| A study on capturing a transformation-thermomechanical behavior of TRIP steel during impact compression|Materials Research Innovations|15|Supplement 1|2011|s131 - s134| |岩本 剛,山中志郎,横山 隆,沢 俊行|分割式ホプキンソン棒法における衝撃圧縮試験片に作用する慣性力および摩擦の影響: 数値シミュレーションによる検討|日本機械学会論文集A編|76|772|2010|1596 - 1602| |He Dan, Toshiyuki Sawa, Takeshi IWAMOTO and Yuya Hirayama|Stress Analysis and strength evaluation of scarf adhesive joints subjected to static tensile loadings|International Journal of Adhesion and Adhesive|30||2010|387 - 392| |Takeshi IWAMOTO, Eiji Murakami and Toshiyuki Sawa|A finite element simulation on creep behavior in welded Joint of chrome-molybdenum steel including interaction between void evolution and dislocation dynamics|Technische Mechanik| 30|1-3|2010|157 - 168| |Takeshi IWAMOTO, Toshimasa Nagai and Toshiyuki Sawa|Experimental and computational investigations on strain rate sensitivity and deformation behavior of bulk materials made of epoxy resin structural adhesive|International Journal of Solids and Structures|47|2|2010|175 - 185| |岩本 剛,永井利正,沢 俊行,倉本英哲,上杉憲雄|構造用エポキシ系接着剤バルク材の変形挙動のひずみ速度依存性 (第二報 三次元構成式定式化と有限要素シミュレーション)|日本機械学会論文集A編|75|758|2009|1402 - 1408| |岩本 剛,永井利正,沢 俊行,倉本英哲,上杉憲雄|構造用エポキシ系接着剤バルク材の変形挙動のひずみ速度依存性 (第一報 塑性せん断ひずみ速度の定式化)|日本機械学会論文集A編|75|758|2009|1395 - 1401| |永井利正,岩本 剛,沢 俊行,倉本英哲,上杉憲雄|衝撃荷重下における構造用エポキシ系接着剤を用いた接着継手の有限要素応力解析|日本機械学会論文集A編|75|757号|2009|1141 - 1147| |市川 幸平,進 祐一郎,沢 俊行,岩本 剛|引張り荷重を受ける異種被着体段付き重ね合わせ接着継手の三次元有限要素応力解析と強度推定|日本機械学会論文集A編|75|751|2009|279 - 286| |Toshiyuki Sawa, Yosuke Akita, Takeshi IWAMOTO|Two-dimensional stress analysis of adhesive butt joints filled with elastic circular fillers in the adhesive subjected to static tensile loadings|Journal of Adhesion Science and Technology|23|2|2009|195 - 214| |岩本 剛,Mohammed Cherkaoui,沢 俊行|数値シミュレーションによるTRIP鋼の衝撃変形挙動の評価|日本機械学会論文集A編|75|752|2009|404 - 409| |Toshimasa Nagai, Takeshi IWAMOTO, Toshiyuki Sawa, Yasuhisa Sekiguchi, Hideaki Kuramoto and Norio Uesugi|An experimental study on the impact deformation and the strain rate sensitivity in some structural adhesives|International Journal of Modern Physics B|22|31-32|2008|5590 - 5595| |Takeshi IWAMOTO, Mohammed Cherkaoui and Toshiyuki Sawa|A study on impact deformation and transformation behavior of TRIP steel by finite element simulation and experiment|International Journal of Modern Physics B|22|31-32|2008|5985 - 5990| |岩本 剛,Mohammed Cherkaoui,Esteban P. Busso,澤 俊行,村上 英治|レベル集合法に基づいた固体材料中の拡散駆動界面運動の有限要素シミュレーション|日本機械学会論文集 A 編|74|745|2008|1191 - 1197| |Takeshi IWAMOTO, Mohammed Cherkaoui and Esteban P. Busso|A Finite Element-based Level-set Method of an Interface Motion Driven by a Diffusion Field: Application to a Phase Transformation Problem|Computational Materials Science|44|2|2008|792 - 801| |Takeshi IWAMOTO, Toshio Tsuta and Toshiyuki Sawa|A numerical study of fibrous tissue formation of type I collagen under mechanical stimuli by reaction - diffusion equations with motion of fibroblasts|The Open Mechanics Journal|2||2008|47 - 56| |岩本 剛,澤 俊行|Fourier 変換画像処理解析法を用いた TRIP 鋼におけるマルテンサイト相の幾何学的配向性解析|材料|57|6|2008|590 - 595| |岩本 剛,澤 俊行,久保 伸二|単結晶TRIP鋼の変態-結晶塑性構成式の定式化とセルオートマトン法による変態・変形挙動の数値シミュレーション|材料|57|3|2008|219 - 224| |澤 俊行,天摩 勝洋,秋田 陽介,岩本 剛|曲げモーメントを受ける層内に円形弾性充填物を有する突合せ接着継手の二次元応力解析|日本接着学会誌|44|2|2007|41 - 52| |市川 幸平,永井 利正,澤 俊行,岩本 剛|静的曲げモーメントを受ける同種材料段付き重ね合わせ接着継手の三次元有限要素応力解析と強度推定|日本接着学会誌|44|1|2007|4 - 11| |Takeshi IWAMOTO, Mohammed Cherkaoui and Esteban P. Busso|A numerical investigation of Interface dynamics during martensitic transformation in a shape memory alloy using the level-set method|Key Engineering Materials|340 - 341||2007|1199 - 1204| |Takeshi IWAMOTO and Toshio Tsuta|Finite element simulation of martensitic transformation in single-crystal TRIP steel based on crystal plasticity with cellular automata approach|Key Engineering Materials|274 - 276||2004|679 - 684| |岩本 剛,澤 俊行,佐々木 理洋|Green 関数を用いた TRIP 鋼の巨視的構成式とその変形挙動の数値シミュレーション|材料|53|12|2004|1365 - 1370| |Takeshi IWAMOTO|Multiscale computational simulation of deformation behavior of TRIP steel with growth of martensitic particles in unit cell by asymptotic homogenization method|International Journal of Plasticity|20|4-5|2004|841 - 869| |Toshio Tsuta, Yajun Yin and Takeshi IWAMOTO|Micro damage evolution analysis of target impacted by projectile|JSME International Journal Ser. A|46|2|2003|109 - 118| |Toshio Tsuta, Takeshi IWAMOTO and Bunko Wang|Micro-Morphology Generation in In-Vessel and Twin-Roll Castings under Magnetic Excitation by the Cellular Automaton Approach|Key Engineering Materials|233 - 236||2002|521 - 528| |Takeshi IWAMOTO and Toshio Tsuta|Assessment of geometrical orientation of martensitic particles in TRIP steel by Fourier and wavelet transformation image analyses|Key Engineering Materials|233 - 236||2002|627 - 636| |Takeshi IWAMOTO and Toshio Tsuta|Computational simulation on deformation behavior of CT specimens of TRIP steel under mode I loading for evaluation of fracture toughness|International Journal of Plasticity|18|11|2002|1583 - 1606| |武田 雄策,蔦 紀夫,岩本 剛|上腕骨-肩複合体系による座位-立位補助運動の筋駆動多体動力学解析|バイオメカニズム|16||2002|253 - 266| |岩本 剛,蔦 紀夫,藤村 朋宏,金子 治|表情筋の能動・受動特性の in vivo 物性同定システム|日本機械学会論文集A編|68|669|2002|730 - 737| |Takeshi IWAMOTO, Yoshinobu Kawagishi, Toshio Tsuta and Shin-ichi Morita|Identification of constitutive equation for TRIP steel and its application to improve mechanical properties|JSME International Journal Series A|44|4|2001|443 - 452| |Yoshihiro Tomita and Takeshi IWAMOTO|Computational prediction of deformation behavior of TRIP steels under cyclic loading|International Journal of Mechanical Sciences|43|9|2001|2017 - 2034| |Toshio Tsuta, Yajun Yin and Takeshi IWAMOTO|Ductility and brittleness simulation during void evolution process of ductile material using rigid plastic FEM based on Gurson type yield function|Key Engineering Materials|177 - 180||2000|213 - 218| |岩本 剛,河岸 善信,蔦 紀夫,森田 慎一|TRIP鋼の構成式の同定と機械的性質改善ための応用|日本機械学会論文集A編|66|242|2000|269 - 277| |Takeshi IWAMOTO and Toshio Tsuta|Computational simulation of the dependence of the austenitic grain size on the deformation behavior of TRIP steels|International Journal of Plasticity|16|7-8|2000|791 - 804| |Takeshi IWAMOTO and Toshio Tsuta|Fraction tensor measured from micrographs for evaluating the geometrical orientation of martensite in TRIP steel|Materials Science Research International|6|3|2000|173 - 179| |藤村 朋宏,蔦 紀夫,岩本 剛,金子 治|3次元 in vivo ヒフ力学物性同定システム|バイオメカニズム|15||2000|17 - 30| |Toshio Tsuta, Tokihiko Umeda, Kazushige Nakahara and Takeshi IWAMOTO|Combined multibody dynamics of link system of wheel loader and control circuit of hydraulic pump|Theoretical and Applied Mechanics|48||1999|261 - 275| |岩本 剛,蔦 紀夫|オーステナイト相結晶粒径の効果を考慮したTRIP鋼の変形挙動の構成モデル|材料|48|9|1999|997 - 1002| |岩本 剛,蔦 紀夫,冨田 佳宏|TRIP鋼の変形様式依存性を考慮した構成モデルの定式化|塑性と加工|39巻|454|1998|1144 - 1149| |Takeshi IWAMOTO, Toshio Tsuta and Yoshihiro Tomita|Investigation on deformation mode dependence of strain-induced martensitic transformation in TRIP steels and modeling of transformation kinetics|International Journal of Mechanical Sciences|40|2-3|1998|173 - 182| |Yoshihiro Tomita and Takeshi IWAMOTO|Constitutive modeling of TRIP steel and its application to the improvement of mechanical properties|International Journal of Mechanical Sciences|37|12|1995|1295 - 1305| |冨田 佳宏,原田 陽雄,岩本 剛|TRIP鋼の変形挙動の数値シミュレーション|日本機械学会論文集A編|60|575|1994|1652 - 1659| CENTER:Copyright © 2013 Mechanics of Materials Laboratory All Rights Reserved.