Kazutake Komori, Sou Kaneko: Predicting Ductile Fracture during Torsion Testing Using Dislocation Density Tensor, Engineering Fracture Mechanics, 301(2024), 110008.

 

Kazutake Komori, Predicting Ductile Fracture During Extended Miyauchi Shear Testing Using Analytical Model, International Journal of Solids and Structures, 275(2023), 112320.

 

Kazutake Komori, Keisuke Matsushima: Predicting Ductile Fracture during Biaxial Sheet Stretching Using an Ellipsoidal Void Model, Theoretical and Applied Fracture Mechanics, 118(2022), 103215.

 

Kazutake Komori: Simulation of the Influence of Lode Parameter on Ductile Fracture Using an Ellipsoidal Void Model, International Journal of Solids and Structures, 229(2021), 111143.

 

Kazutake Komori: Predicting Ductile Fracture in Ferrous Materials during Cylinder Upsetting Using an Ellipsoidal Void Model, Theoretical and Applied Fracture Mechanics, 108(2020), 102636.

 

Kazutake Komori: Simulation of Snaking and Buckling in Hot Sheet Rolling, ISIJ International, 60-6(2020), pp.1244-1252.

 

Kazutake Komori: Ductile Fracture in Metal Forming - Modeling and Simulation, (2019), Academic Press.

 

ŹX˜a•F”MŠÔˆł‰„ƒ[ƒ‹Œ¤‹†‰ď‚ĚŠˆ“Ž‚ƐŹ‰ĘC‚Ó‚Ľ‚ç‚ށC24-10(2019), pp.651-654.

 

ŹX˜a•F”MŠÔ”–”ˆł‰„Žž‚̍i‚荾‚Ý‚ĚƒVƒ~ƒ…ƒŒ[ƒVƒ‡ƒ“C“S‚ƍ|C104-12(2018), pp.742-749.

 

Kazutake Komori: Improvement and Validation of the Ellipsoidal Void Model for Predicting Ductile Fracture, Procedia Engineering, 207(2017), pp.2036-2041.

 

Kazutake Komori: Predicting Ductile Fracture in Ferrous Materials during Tensile Tests Using an Ellipsoidal Void Model, Mechanics of Materials, 113(2017), pp.24-43.

 

ŹX˜a•Fˆř”˛‚ŤƒVƒ~ƒ…ƒŒ[ƒVƒ‡ƒ“‚É‚¨‚Ż‚é”j‰ó—\‘ށC‘YŤ‚ƉÁHC57-661(2016), pp.105-108.

 

Kazutake Komori: Predicting Ductile Fracture in Pure Metals and Alloys Using Notched Tensile Specimens by an Ellipsoidal Void Model, Engineering Fracture Mechanics, 151(2016), pp.51-69.

 

Kazutake Komori: Proposal and Use of a Void Model for Inclusion Cracking for Simulating Inner Fracture Defects in Drawing of Ferrite-Pearlite Steels, Mechanics of Materials, 77(2014), pp.98-109.

 

Kazutake Komori: Evaluation of Ductile Fracture in Sheet Metal Forming using the Ellipsoidal Void Model, Mechanics of Materials, 77(2014), pp.67-79.

 

Kazutake Komori: Simulation of Stationary Crack during Blanking using Node Separation Method, Procedia Engineering, 81(2014), pp.1102-1107.

 

Kazutake Komori: Improvement of an Ellipsoidal Void Model for Simulating Ductile Fracture Behavior, Key Engineering Materials, 577-578(2014), pp.93-96.

 

Kazutake Komori: Simulation of Crack Arrest in Blanking Using the Node Separation Method, International Journal of Mechanical Science, 68(2013), pp.150-159.

 

Kazutake Komori: An Ellipsoidal Void Model for Simulating Ductile Fracture Behavior, Mechanics of Materials, 60(2013), pp.36-54.

 

Kazutake Komori: An Ellipsoidal Void Model for the Evaluation of Ductile Fracture in Sheet Metal Forming, Computational Materials Science, 67(2013), pp.408-416.

 

ŹX˜a•F”÷Ž‹“Iƒ‚ƒfƒ‹‚đ•š—p‚ľ‚˝‘YŤ‰ÁH’†‚̉„Ť”j‰ó‚̐”’l‰đÍC‘YŤ‚ƉÁHC53-620(2012), pp.795-799.

 

Kazutake Komori: Improved Void Model for Simulating Inner Fracture Defects in Drawing, Steel Research International, Special Edition: 10th International Conference on Technology of Plasticity, ICTP 2011, (2011), pp.913-918.

 

Kazutake Komori: Proposal and Use of a Void Model for the Simulation of Tensile Test by the Node Separation Method, Journal of the Mechanical Behavior of Materials, 19-5(2009), pp.279-288.

 

Kazutake Komori, Kouta Mizuno: Study on Plastic Deformation in Cone-type Rotary Piercing Process using Model Piercing Mill for Modeling Clay, Journal of Materials Processing Technology, 209-11(2009), pp.4994-5001.

 

“ú–{‘YŤ‰ÁHŠw‰ď(‹¤’˜)F—á‘č‚ĹŠw‚Ô‚Í‚ś‚ß‚Ä‚Ě‘YŤ—ÍŠwC(2009), X–ko”ŁD

 

Kazutake Komori: Analysis of Longitudinal Buckling in Temper Rolling, ISIJ International, 49-3(2009), pp.408-415.

 

Kazutake Komori: Evolution of Void Volume Fraction for Simulating Inner Fracture Defects related to in Drawing of High-Carbon Steel Wire Rods, Theoretical and Applied Fracture Mechanics, 50-2(2008), pp.157-166.

 

ŹX˜a•F’˛Žżˆł‰„Žž‚̏cƒoƒbƒNƒ‹‚̉đÍC“S‚ƍ|C94-10(2008), pp.452-459.

 

Kazutake Komori: Proposal and Use of a Void Model for the Simulation of Inner Fracture Defect in Drawing, Acta Materialia, 54-16(2006), pp.4351-4364.

 

Kazutake Komori: Proposal and Use of a Void Model for the Simulation of Shearing, Materials Science and Engineering: A, 421-1/2(2006), pp.226-237.

 

Kazutake Komori, Minoru Suzuki: Simulation of Deformation and Temperature in Press Roll Piercing, Journal of Materials Processing Technology, 169-2(2006), pp.249-257.

 

Kazutake Komori: Simulation of Mannesmann Piercing Process by the Three-Dimensional Rigid-Plastic Finite-Element Method, International Journal of Mechanical Science, 47-12(2005), pp.1838-1853.

 

Kazutake Komori: Ductile Fracture Criteria for Simulating Shear by Node Separation Method, Theoretical and Applied Fracture Mechanics, 43-1(2005), pp.101-114.

 

Kazutake Komori: Simulation of Deformation and Temperature in Caliber Rolling: Effect of Finite-Element Mesh in Cross Section, Journal of Materials Processing Technology, 143-144(2004), pp.367-372.

 

ŹX˜a•FŒvŽZHŠw‚đ—˜—p‚ľ‚˝LüĽ‚ť‚Ě‘ź‚̉ÁH‰đÍC‘YŤ‚ƉÁHC44-507(2003), pp.405-408.

 

ŹX˜a•F“ü–ĺuŔ ˆł‰„—˜_“ü–ĺ-9 —LŒŔ—v‘f–@‚đ—˜—p‚ľ‚˝ˆł‰„—˜_C‚Ó‚Ľ‚ç‚ށC8-1(2003), pp.13-19.

 

Kazutake Komori: Effect of Ductile Fracture Criteria on Chevron Crack Formation and Evolution in Drawing, International Journal of Mechanical Science, 45-1(2003), pp.141-160.

 

Kazutake Komori: Simulation of Tensile Test by Node Separation Method, Journal of Materials Processing Technology, 125-126(2002), pp.608-612.

 

Kazutake Komori: An Upper Bound Method for Analysis of Three-Dimensional Deformation in the Flat Rolling of Bars, International Journal of Mechanical Science, 44-1(2002), pp.37-55.

 

Kazutake Komori, Kazunori Kato: Analysis of Stress Distribution in Caliber Rolling by the Energy Method using Finite-Element Division, Journal of Materials Processing Technology, 117-1/2(2001), pp.201-208.

 

ŹX˜a•F”÷Ž‹“Iƒ‚ƒfƒ‹‚đ—p‚˘‚˝ˆř”˛‚Ť‰ÁHŽž‚Ě“ŕ•”Š„‚ęŒ‡Š×‚̉đÍC“ú–{‹@ŠBŠw‰ď˜_•śW(A•Ň)C67-660(2001), pp.1393-1401.

 

ŹX˜a•Fƒ{ƒCƒh—˜_‚É‚ć‚鉄Ť”j‰ó‚̉đÍC‘YŤ‚ƉÁHC42-481(2001), pp.94-98.

 

Kazutake Komori: Simulation of Shearing by Node Separation Method, Computers & Structures, 79-2(2001), pp.197-207.

 

Kazutake Komori, Katsuhiko Koumura: Simulation of Deformation and Temperature in Multi-pass H-shape Rolling, Journal of Materials Processing Technology, 105/1-2(2000), pp.24-31.

 

Kazutake Komori: Simulation of Chevron Crack Formation and Evolution in Drawing, International Journal of Mechanical Science, 41-12(1999), pp.1499-1513.

 

ŹX˜a•F”÷Ž‹“Iƒ‚ƒfƒ‹‚đl—ś‚ľ‚˝‚š‚ń’f‰ÁH‚̐”’lƒVƒ~ƒ…ƒŒ[ƒVƒ‡ƒ“C‘YŤ‚ƉÁHC40-466(1999), pp.1086-1090.

 

Kazutake Komori: Proposal and Use of a Void Model for the Simulation of Ductile Fracture Behavior, Acta Materialia, 47-10(1999), pp.3069-3077.

 

Kazutake Komori: Simulation of Deformation and Temperature in Multipass Three-roll Rolling, Journal of Material Processing Technology, 92-93(1999), pp.450-457.

 

Kazutake Komori: Analysis of Cross and Vertical Buckling in Sheet Metal Rolling, International Journal of Mechanical Science, 40-12(1998), pp.1235-1246.

 

ŹX˜a•F”÷Ž‹“Iƒ‚ƒfƒ‹‚Ě’ńˆÄ‚Ć‚ť‚ę‚đl—ś‚ľ‚˝‰„Ť”j‰ó‹““Ž‚̐”’lƒVƒ~ƒ…ƒŒ[ƒVƒ‡ƒ“C‘YŤ‚ƉÁHC39-452(1998), pp.949-953.

 

Kazutake Komori: Rigid-Plastic Finite-Element Method for Analysis of Three-Dimensional Rolling That Requires Small Memory Capacity, International Journal of Mechanical Science, 40-5(1998), pp.479-491.

 

ŹX˜a•Fˆř”˛‚Ť‰ÁH‚É‚¨‚Ż‚éFEM‰đÍ‹Zp‚̐i•ŕC‘YŤ‚ƉÁHC39-447(1998), pp.315-317.

 

ŹX˜a•C‘şŽ•FF‘˝ƒpƒXHŒ`|ˆł‰„‚Ě•ĎŒ`‹y‚щˇ“x‰đÍC“ú–{‹@ŠBŠw‰ď˜_•śW(A•Ň)C64-619(1998), pp.729-736.

 

Kazutake Komori: Simulation of Deformation and Temperature in Multi-pass Caliber Rolling, Journal of Materials Processing Technology, 71-2(1997), pp.329-336.

 

ŹX˜a•F‚š‚ń’f‰ÁH‚̐”’lƒVƒ~ƒ…ƒŒ[ƒVƒ‡ƒ“C‘YŤ‚ƉÁHC38-433(1997), pp.129-134.

 

ŹX˜a•Fˆř”˛‚Ť‰ÁHŽž‚ĚƒVƒFƒuƒƒ“ƒNƒ‰ƒbƒN‚̐”’lƒVƒ~ƒ…ƒŒ[ƒVƒ‡ƒ“C‘YŤ‚ƉÁHC37-426(1996), pp.755-760.

 

Kazutake Komori: Analysis of Herring-Bone Mechanism in Sheet Rolling, Journal of Materials Processing Technology, 60(1996), pp.377-380.

 

ŹX˜a•F‘˝ƒpƒXŽO•űƒ[ƒ‹ˆł‰„‚Ě•ĎŒ`‹y‚щˇ“x‰đÍC“ú–{‹@ŠBŠw‰ď˜_•śW(A•Ň)C62-596(1996), pp.1045-1050.

 

Â–Ř—ECŹ“‡”V•vCŹX˜a•C‹g“cˆę–çF‘YŤ—ÍŠw‚ĚŠî‘bC(1996), ŽY‹Ć}‘D

 

ŹX˜a•F”–”ˆł‰„Žž‚ĚƒNƒƒX‹y‚яcƒoƒbƒNƒ‹‚̉đÍC‘YŤ‚ƉÁHC36-410(1995), pp.211-217.

 

ŹX˜a•F•K—v‚Č‹L‰Ż—e—Ę‚ŞŹ‚ł‚˘ŽOŽŸŒłˆł‰„‚̍„‘YŤ—LŒŔ—v‘f‰đÍ–@C‘YŤ‚ƉÁHC35-407(1994), pp.1400-1405.

 

ŹX˜a•F‘˝ƒpƒXEŒ^ˆł‰„‚Ě•ĎŒ`‹y‚щˇ“x‰đÍC“ú–{‹@ŠBŠw‰ď˜_•śW(A•Ň)C59-568(1993), pp.2993-2999.

 

ŹX˜a•F˜AÚ˘ŽŔ‘HĽƒpƒ\ƒRƒ“‚É‚ć‚é‘YŤ‰ÁH‚ĚŒvŽZŁ‡VăŠE–@(ˆł‰„)C‘YŤ‚ƉÁHC34-394(1993), pp.1226-1231.

 

ŹX˜a•F„‘Ě‹y‚Ń’eŤ‘̍H‹ď‚̉Ÿž‚݂̉đÍ(˜A‘ą•Ş•z“]ˆĘ˜_‚É‚ć‚é’e‘YŤ‰đÍII)C‘YŤ‚ƉÁHC33-378(1992), pp.868-874.

 

“ú–{‘YŤ‰ÁHŠw‰ď(‹¤’˜)FŢ—ż‰ÁH‚ĚŒvŽZ—ÍŠw(‘YŤ‰ÁH‹ZpƒVƒŠ[ƒY1)C(1992), ƒRƒƒiŽĐD

 

Kazutake Komori, Kazunori Kato: Analysis of Effect of Tension in Bar Rolling by Energy Method using Finite-Element Division, JSME International Journal (Series I), 34-3(1991), pp.305-311.

 

ŹX˜a•F‘Ń”Â‚Ěˆłk•ĎŒ`‚̉đÍ‚É‚ć‚éŠî‘b“IŒŸ“˘(˜A‘ą•Ş•z“]ˆĘ˜_‚É‚ć‚é’e‘YŤ‰đÍI)C‘YŤ‚ƉÁHC32-366(1991), pp.886-892.

 

ŹX˜a•C‰Á“Ą˜a“TFüŢˆł‰„‚ĚŽŔ—p“I‚Č–â‘č‚̉đÍ‚ƍlŽ@(—LŒŔ—v‘fƒGƒlƒ‹ƒM[–@‚É‚ć‚éüŢˆł‰„‚Ě‘‡“IŒŸ“˘II)C‘YŤ‚ƉÁHC31-350(1990), pp.364-371.

 

ŹX˜a•C‰Á“Ą˜a“TFüŢˆł‰„‚̉đÍ–@‚Ě“ˆę‚Ɛ¸“x‚ĚŒŸ“˘(—LŒŔ—v‘fƒGƒlƒ‹ƒM[–@‚É‚ć‚éüŢˆł‰„‚Ě‘‡“IŒŸ“˘I)C‘YŤ‚ƉÁHC31-350(1990), pp.357-363.

 

ŹX˜a•C‰Á“Ą˜a“TFƒGƒlƒ‹ƒM–@‚É‚ć‚éüŢˆł‰„‚Ě’Ł—͂̉e‹ż‚̉đÍC“ú–{‹@ŠBŠw‰ď˜_•śW(A•Ň)C56-521(1990), pp.182-189.

 

Kazutake Komori, Kazunori Kato: Analysis of Temperature Distribution in Caliber Rolling of a Bar, JSME International Journal (Series I), 32-2(1989), pp.208-216.

 

ŹX˜a•C‰Á“Ą˜a“TF—LŒŔ—v‘f•ŞŠ„‚đ—p‚˘‚éƒGƒlƒ‹ƒM–@‚É‚ć‚éüŢˆł‰„‚̉ž—Í•Ş•z‚̉đÍC“ú–{‹@ŠBŠw‰ď˜_•śW(A•Ň)C54-504(1988), pp.1571-1578.

 

Kazutake Komori, Kazunori Kato, Tadao Murota: Analysis of Rolling of Bars by the Energy Method using Finite Element Division (Analysis of Square-Oval Pass), JSME International Journal (Series I), 31-2(1988), pp.257-263.

 

ŹX˜a•C‰Á“Ą˜a“TFüŢ‚̍EŒ^ˆł‰„‚̉ˇ“x•Ş•z‚̉đÍC“ú–{‹@ŠBŠw‰ď˜_•śW(A•Ň)C53-494(1987), pp.1938-1945.

 

Kazutake Komori, Kazunori Kato, Tadao Murota, Junichi Endo, Yutaka Doi: Analysis of Rolling of Angles by Energy Method using Finite Element Division, JSME International Journal, 30-262(1987), pp.574-580.

 

ŹX˜a•C‰Á“Ą˜a“TCŽş“c’‰—YF—LŒŔ—v‘f•ŞŠ„‚đ—p‚˘‚éƒGƒlƒ‹ƒM–@‚É‚ć‚éüŢˆł‰„‚̉đÍ(‘ć2•ńCŠpĽƒI[ƒoƒ‹ˆł‰„‚̉đÍ)C“ú–{‹@ŠBŠw‰ď˜_•śW(A•Ň)C53-488(1987), pp.848-855.

 

ŹX˜a•C‰Á“Ą˜a“TCŽş“c’‰—YC‰““Ą‡ˆęC“yˆä—TF—LŒŔ—v‘f•ŞŠ„‚đ—p‚˘‚éƒGƒlƒ‹ƒM–@‚É‚ć‚éŽRŒ`Ţˆł‰„‚̉đÍC“ú–{‹@ŠBŠw‰ď˜_•śW(A•Ň)C52-479(1986), pp.1724-1732.

 

Kazutake Komori, Kazunori Kato, Tadao Murota: Analysis of Rolling of Bars by the Energy Method using Finite Element Division, Bulletin of JSME, 29-251(1986), pp.1412-1418.

 

Kazunori Kato, Tadao Murota, Kazutake Komori: Improvement of the Energy Method using Finite Element Division and Application to Flat Rolling, Bulletin of JSME, 29-251(1986), pp.1404-1411.

 

ŹX˜a•C‰Á“Ą˜a“TCŽş“c’‰—YF—LŒŔ—v‘f•ŞŠ„‚đ—p‚˘‚éƒGƒlƒ‹ƒM–@‚É‚ć‚éüŢˆł‰„‚̉đÍC“ú–{‹@ŠBŠw‰ď˜_•śW(A•Ň)C51-469(1985), pp.2181-2189.

 

‰Á“Ą˜a“TCŽş“c’‰—YCŹX˜a•F—LŒŔ—v‘f•ŞŠ„‚đ—p‚˘‚éƒGƒlƒ‹ƒM–@‚ĆŠp–_•˝ˆł‰„‚̉đÍC“ú–{‹@ŠBŠw‰ď˜_•śW(A•Ň)C51-469(1985), pp.2172-2180.