Zobrazeno 1 - 5
of 5
pro vyhledávání: '"Kristin Dion"'
Autor:
Kristin Dion, Michael K. Neilsen
Publikováno v:
International Journal of Fracture. 198:167-178
Predictions for ductile tearing of a geometrically complex Ti-6Al-4V plate were generated using a Unified Creep Plasticity Damage model in fully coupled thermal stress simulations. Uniaxial tension and butterfly shear tests performed at displacement
Autor:
Krishnaswa Ravi-Chandar, Zhong Zhou, H. E. Fang, Dong Qian, J. Cruce, Marcus Rüter, M. Miraglia, Meng Luo, Amy Kathleen Kaczmarowski, Ken Nahshon, Yong Gan, Kristin Dion, Liang Xue, Devin T. O'Connor, Ali Ghahremaninezhad, Sheng Wei Chi, Jifeng Zhao, Pengfei Yang, Paul A. Wawrzynek, Zhen Chen, Jim Lua, Tingting Zhang, Erin Karasz, R. DeFrese, Steffen Brinckmann, Erdogan Madenci, Sharlotte Kramer, E. Yreux, Bahattin Kilic, Michael K. Neilsen, Anthony R. Ingraffea, Jiun-Shyan Chen, Andrew J. Gross, L. Quinkert, P. Liu, Theresa Elena Cordova, A. R. Cerrone, Brad L. Boyce, John M Emery, Jacob D. Hochhalter, Khalil I. Elkhodary, Shih-Po Lin, E. Fang, B.J. Carter, E. T. Moyer, M G Veilleux, S. Tang, Sagar Bhamare, Keunhwan Pack, Tomasz Wierzbicki, Xiong Zhang
Publikováno v:
Springer Netherlands
Existing and emerging methods in computational mechanics are rarely validated against problems with an unknown outcome. For this reason, Sandia National Laboratories, in partnership with US National Science Foundation and Naval Surface Warfare Center
Publikováno v:
International Journal of Fracture. 186:107-115
Predictions for the Sandia National Laboratories fracture challenge (Boyce et al. in Int J Fract 2013) were generated using a transient dynamic finite element code with a multi-linear elastic plastic failure model developed by Wellman (Simple approac
Autor:
Victoria Brinnel, Sheng Wei Chi, Scott Edward Sanborn, Benedikt Döbereiner, Tiantian Zhang, P. D Mattie, Junhe Lian, X. J. Fang, Matthieu Mazière, Ashkan Mahdavi, Thomas Bosiljevac, Napat Vajragupta, Michael Veilleux, Sylvia Feld-Payet, Tomasz Wierzbicki, James E. Warner, John A. Moore, Bruce W. Williams, Keunhwan Pack, Khalil I. Elkhodary, James W. Foulk, Jim Lua, Denis Novokshanov, Arthur A. Brown, Brad L. Boyce, Sharlotte Kramer, Vladislav A. Yastrebov, Krishnaswamy Ravi-Chandar, Yidu Di, Bo Wu, John L. Bignell, A. R. Cerrone, Anthony R. Ingraffea, Aida Nonn, Jožef Predan, G.F. Bomarito, Kyle N. Karlson, B.J. Carter, Pawel Kucharczyk, Edmundo Corona, Sebastian Münstermann, Jacob D. Hochhalter, Shih-Po Lin, M. K. Neilsen, Derek H. Warner, Kristin Dion, J. Zadravec, Jacques Besson, C. H M Simha, Christopher Andrew Jones, Vincent Chiaruttini, Jean-Louis Chaboche, Liang Xue, Andrew J. Gross
Publikováno v:
International Journal of Fracture
International Journal of Fracture, Springer Verlag, 2016, 198, pp.5-100. ⟨10.1007/s10704-016-0089-7⟩
Springer Netherlands
International journal of fracture 198(1), 5-100 (2016). doi:10.1007/s10704-016-0089-7 special issue: "Special Issue: Sandia Fracture Challenge 2014 / Guest Edited by Sharlotte L.B. Kramer"
International Journal of Fracture, Springer Verlag, 2016, 198, pp.5-100. ⟨10.1007/s10704-016-0089-7⟩
Springer Netherlands
International journal of fracture 198(1), 5-100 (2016). doi:10.1007/s10704-016-0089-7 special issue: "Special Issue: Sandia Fracture Challenge 2014 / Guest Edited by Sharlotte L.B. Kramer"
Ductile failure of structural metals is relevant to a wide range of engineering scenarios. Computational methods are employed to anticipate the critical conditions of failure, yet they sometimes provide inaccurate and misleading predictions. Challeng
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_dedup___::49c56b3af3684d14483d2ec47bf61983
Autor:
James V. Cox, John M Emery, Benjamin Spencer, John T. Foster, David John Littlewood, Joseph E. Bishop, Jakob T. Ostien, Kristin Dion, Brad L. Boyce, Alejandro Mota, Kevin J. Dowding, Theresa Elena Cordova, Thomas B. Crenshaw, James W. Foulk, Gerald William Wellman, Stewart A. Silling, Joshua Robbins
Fracture or tearing of ductile metals is a pervasive engineering concern, yet accurate prediction of the critical conditions of fracture remains elusive. Sandia National Laboratories has been developing and implementing several new modeling methodolo
Externí odkaz:
https://explore.openaire.eu/search/publication?articleId=doi_________::5dc9e435b5d19a219cfcf13e771ecfca
https://doi.org/10.2172/1029764
https://doi.org/10.2172/1029764