|
| 1 | +% MOOSE |
| 2 | +% "All models were simulated with our house-developed code based on the open-source Finite Element framework MOOSE..." |
| 3 | +% ResearchGate Preprint: https://www.researchgate.net/publication/372074598_Mechanical_investigations_of_composite_cathode_degradation_in_all-solid-state-batteries |
| 4 | +@Article{Farzanian_2023, |
| 5 | + author = {Shafee Farzanian and Joseph Vazquez Mercado and Imtiaz Shozib and Nikhil Sivadas and Valentina Lacivita and Yan Wang and Qingsong Howard Tu}, |
| 6 | + title = {Mechanical investigations of composite cathode degradation in all-solid-state batteries}, |
| 7 | + journal = {ACS Applied Energy Materials}, |
| 8 | + month = sep, |
| 9 | + year = 2023, |
| 10 | + volume = 6, |
| 11 | + number = 18, |
| 12 | + pages = {9615--9623}, |
| 13 | + note = {\url{https://doi.org/10.1021/acsaem.3c01681}, ArXiv e-print: \url{https://arxiv.org/abs/2307.00145}} |
| 14 | +} |
| 15 | + |
| 16 | +% BISON |
| 17 | +% https://inldigitallibrary.inl.gov/sites/sti/sti/Sort_67506.pdf |
| 18 | +@TechReport{Skerjanc_2023, |
| 19 | + author = {William F. Skerjanc}, |
| 20 | + title = {{PARFUME/BISON fission product release predictions versus AGR-3/4 heating test measurements}}, |
| 21 | + institution = {Idaho National Laboratory}, |
| 22 | + day = 13, |
| 23 | + month = sep, |
| 24 | + year = 2023, |
| 25 | + number = {INL/RPT-23-74505}, |
| 26 | + note = {\url{https://www.osti.gov/biblio/2000032}} |
| 27 | +} |
| 28 | + |
| 29 | +% MOOSE |
| 30 | +% "The model has been implemented in MOOSE..." |
| 31 | +@Misc{Lagmach_2023, |
| 32 | + author = {Rabia Lagmach and Michele Di Pierro and Davit A. Potoyan}, |
| 33 | + title = {{4D mesoscale liquid model of nucleus resolves chromatin's radial organization}}, |
| 34 | + month = sep, |
| 35 | + year = 2023, |
| 36 | + howpublished = {bioR$\chi$iv e-print}, |
| 37 | + note = {\url{https://doi.org/10.1101/2023.09.21.558819}} |
| 38 | +} |
| 39 | + |
| 40 | +% MOOSE/GOLEM |
| 41 | +% "In this study, as a preliminary attempt of using GOLEM to carry out borehole poromechanical analysis, only two fractures are included around a wellbore..." |
| 42 | +@Article{Heidari_2023, |
| 43 | + author = {Sina Heidari and Biao Li and Antoine B. Jacquey}, |
| 44 | + title = {{Finite element modeling of wellbore stability in a fractured formation for the geothermal development in northern Quebec, Canada}}, |
| 45 | + journal = {Geoenergy Science and Engineering}, |
| 46 | + month = dec, |
| 47 | + year = 2023, |
| 48 | + volume = {231, Part A}, |
| 49 | + pages = {212350 (13 pages)}, |
| 50 | + note = {\url{https://doi.org/10.1016/j.geoen.2023.212350}} |
| 51 | +} |
| 52 | + |
| 53 | +% MOOSE |
| 54 | +% "A ... model coupled with damage was implemented in the ... "MOOSE Framework"" |
| 55 | +@Article{Khaledi_2023, |
| 56 | + author = {Kavan Khaledi and Lisa Winhausen and Mohammadreza Jalali and Florian Amann}, |
| 57 | + title = {{Constitutive modeling of clay shales in undrained conditions and its experimental verification for Opalinus Clay}}, |
| 58 | + journal = {International Journal of Rock Mechanics and Mining Sciences}, |
| 59 | + month = nov, |
| 60 | + year = 2023, |
| 61 | + volume = 171, |
| 62 | + pages = {105588 (xx pages)}, |
| 63 | + note = {\url{https://doi.org/10.1016/j.ijrmms.2023.105588}} |
| 64 | +} |
| 65 | + |
1 | 66 | % BISON |
2 | 67 | % "... the BISON fuel performance code was used to evaluate the cladding under the burst conditions." |
3 | 68 | @Article{Massey_2023, |
@@ -27,7 +92,7 @@ @Article{Guevel_2023 |
27 | 92 |
|
28 | 93 | % MOOSE |
29 | 94 | % "The elastodynamics equation was solved on a moving tetrahedral mesh consisting of about 200,000 tetrahedra ... using the finite-element method with ... a second-order central difference time-stepping scheme [32,33]." |
30 | | -% It is not explicitly stated that the implementation is based on MOOSE, but MOOSE and a MOOSE-based code are cited in a sentence describing the numerical simulations. |
| 95 | +% It is not explicitly stated that the implementation is based on MOOSE, but MOOSE and a MOOSE-based code are cited in a sentence describing the numerical simulations. |
31 | 96 | @Article{Tsolaki_2023, |
32 | 97 | author = {Elena Tsolaki and Pascal Corso and Robert Zboray and Jonathan Avaro and Christian Appel and Marianne Liebi and Sergio Bertazzo and Paul Philipp Heinisch and Thierry Carrel and Dominik Obrist and Inge K. Herrmann}, |
33 | 98 | title = {Multiscale multimodal characterization and simulation of structural alterations in failed bioprosthetic heart valves}, |
@@ -640,7 +705,7 @@ @Misc{CChen_2023 |
640 | 705 | % MOOSE |
641 | 706 | % "For solving the evolution equations, ... (MOOSE) based on the Finite Element Method (FEM) is adopted" |
642 | 707 | % https://www.researchgate.net/publication/371953786_A_multiphase-field_model_for_simulating_the_hydrogen-induced_multi-spot_corrosion_on_the_surface_of_polycrystalline_metals_Application_to_uranium_metal |
643 | | -% author:sheng author:liu author:shi author:wang multiphase field hydrogen induced corrosion uranium |
| 708 | +% author:j-sheng author:y-liu author:xm-shi author:wang multiphase field hydrogen induced corrosion uranium |
644 | 709 | @Misc{Sheng_2023, |
645 | 710 | author = {Jie Sheng and Yu Liu and Xiao-Ming Shi and Yue-Chao Wang and Zi-Hang Chen and Ke Xu and Shuai Wu and Hou-Bing Huang and Bo Sun and Hai-Feng Liu and Hai-Feng Song}, |
646 | 711 | title = {{A multiphase-field model for simulating the hydrogen-induced multi-spot corrosion on the surface of polycrystalline metals: Application to uranium metal}}, |
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