Merge remote-tracking branch 'jwpeterson/citations' into devel

Author: jwpeterson

doc/citations/maybe.bib

@@ -2,6 +2,18 @@
 % that they actually use libMesh, and we can't check because they are
 % behind a paywall/not on sci-hub.
 
+% Maybe MOOSE
+@Article{Shen_2023,
+  author  = {Yixi Shen and Peng Wen and An T. Ta and Simon R. Phillpot and Douglas E. Spearot},
+  title   = {{Migration velocities of intergranular He gas bubbles under thermal gradients in Fe by phase-field modeling}},
+  journal = {Journal of Nuclear Materials},
+  month   = nov,
+  year    = 2023,
+  volume  = 585,
+  pages   = {154606 (xx pages)},
+  note    = {\url{https://doi.org/10.1016/j.jnucmat.2023.154606}}
+}
+
 % Maybe MOOSE
 @Article{Li_2023,
   author  = {Yongchang Li and Zhihan Hu and Aaron French and Kenneth Cooper and Frank A. Garner and Lin Shao},
@@ -42,22 +54,6 @@ @Article{Bess_2023
   note    = {Special issue featuring papers from the 2022 International Conference on Physics of Reactors (PHYSOR 2022), \url{https://doi.org/10.1080/00295639.2022.2156240}}
 }
 
-% Maybe MOOSE
-% Got PDF copy of the paper from the authors on ResearchGate. It does cite MOOSE, but there is no sentence
-% confirming that MOOSE is actually used for the phase-field simulations which are shown in the paper, so
-% I have asked Fangping Zhuo for further clarification.
-@Article{FZhuo_2023,
-  author  = {Fangping Zhuo and Xiandong Zhou and Shuang Gao and Felix Dietrich and Pedro B. Groszewicz and Lovro Fulanovi{\'{c}} and Patrick Breckner and Bai-Xiang Xu and Hans-Joachim Kleebe and Dragan Damjanovic and J{\"{u}}rgen R{\"{o}}del},
-  title   = {Intrinsic-strain engineering by dislocation imprint in bulk ferroelectrics},
-  journal = {Physical Review Letters},
-  month   = jul,
-  year    = 2023,
-  volume  = 131,
-  number  = 1,
-  pages   = {016801 (7 pages)},
-  note    = {\url{https://doi.org/10.1103/PhysRevLett.131.016801}}
-}
-
 % Maybe libMesh
 % Requested full-text on ResearchGate
 @Article{Tzirakis_2023,

doc/citations/preprints.bib

@@ -1,26 +1,39 @@
 % Preprints
 
-% MOOSE/KRAKEN
-% "... we have developed our own multiphysics simulation platform, Kraken, built on top of ... (MOOSE) ..."
-@Article{Wandke_2023b,
-  author  = {Kevin Wandke and Y Z},
-  title   = {Physics-based finite element simulation of the dynamics of soft robots},
-  journal = {IEEE Access},
+% MOOSE
+% "Numerical implementation of the model is carried out ... in ... (MOOSE)"
+% https://www.researchgate.net/publication/369266382_A_thermodynamically_consistent_non-isothermal_phase-field_model_for_selective_laser_sintering_additive_manufacturing
+@Article{Liang_2023,
+  author  = {Chenguang Liang and Yan Yin and Wenxuan Wang and Min Yi},
+  title   = {A thermodynamically consistent non-isothermal phase-field model for selective laser sintering},
+  journal = {International Journal of Mechanical Sciences},
   month   = jul,
   year    = 2023,
-  pages   = {xx (8 pages)},
-  note    = {\url{https://doi.org/10.1109/ACCESS.2023.3291617}}
+  pages   = {108602 (xx pages)},
+  note    = {\url{https://doi.org/10.1016/j.ijmecsci.2023.108602}, ResearchGate Preprint: \url{https://tinyurl.com/39xaxmae}}
 }
 
 % Maybe MOOSE
-@Article{Shen_2023,
-  author  = {Yixi Shen and Peng Wen and An T. Ta and Simon R. Phillpot and Douglas E. Spearot},
-  title   = {{Migration velocities of intergranular He gas bubbles under thermal gradients in Fe by phase-field modeling}},
-  journal = {Journal of Nuclear Materials},
+@Article{Recuero_2023b,
+  author  = {Antonio Recuero and Markian Petkov and Benjamin W. Spencer and Pierre-Alexandre Juan},
+  title   = {{Continuum damage mechanics modeling of high-temperature flaw propagation: Application to creep crack growth in 316H standardized specimens and nuclear reactor components}},
+  journal = {Journal of Pressure Vessel Technology},
+  month   = jul,
+  year    = 2023,
+  pages   = {PVT-23-1057 (26 pages)},
+  note    = {\url{https://doi.org/10.1115/1.4062953}}
+}
+
+% MOOSE
+% "... the equations are non-dimensionalized and implemented using the open-source finite element framework MOOSE..."
+@Article{David_2023,
+  author  = {Rapha\"{e}lle David and Aashique A. Rezwan and Yongfeng Zhang},
+  title   = {Impact of defect annihilation mechanism on the grain size dependence and the dimensionality effect of radiation induced segregation},
+  journal = {Materialia},
   month   = jul,
   year    = 2023,
-  pages   = {154606 (xx pages)},
-  note    = {\url{https://doi.org/10.1016/j.jnucmat.2023.154606}}
+  pages   = {101851 (xx pages)},
+  note    = {\url{https://doi.org/10.1016/j.mtla.2023.101851}}
 }
 
 % MOOSE/Zapdos
@@ -36,6 +49,8 @@ @Article{DeChant_2023b
 
 % Maybe MOOSE
 % The same author used MOOSE in a 2022 paper
+% https://www.researchgate.net/publication/371835495_Interfacial_Interactions_in_Particle-Induced_Abnormal_Grain_Growth
+% Requested full-text on ResearchGate
 @Article{Bhuiyan_2023,
   author  = {M. Nabil Bhuiyan and Lesley D. Frame and Leslie T. Mushongera},
   title   = {Interfacial interactions in particle-induced abnormal grain growth},

doc/citations/twentythree.bib

@@ -1,3 +1,74 @@
+% MOOSE/KRAKEN
+% "... we have developed our own multiphysics simulation platform, Kraken, built on top of ... (MOOSE) ..."
+@Article{Wandke_2023b,
+  author  = {Kevin Wandke and Y Z},
+  title   = {Physics-based finite element simulation of the dynamics of soft robots},
+  journal = {IEEE Access},
+  month   = jul,
+  year    = 2023,
+  volume  = 11,
+  pages   = {67996--68003},
+  note    = {\url{https://doi.org/10.1109/ACCESS.2023.3291617}}
+}
+
+% MOOSE
+% "The final set of the governing equations ... is subsequently implemented into an open-source finite element simulator based on ... MOOSE ..."
+@Article{Tang_2023,
+  author  = {XiaoJie Tang and ManMan Hu},
+  title   = {Chemo-hydro-mechanics in a reactive rock under cylindrical fluid pressurization},
+  journal = {Computers and Geotechnics},
+  month   = oct,
+  year    = 2023,
+  volume  = 162,
+  pages   = {105637 (xx pages)},
+  note    = {\url{https://doi.org/10.1016/j.compgeo.2023.105637}}
+}
+
+% MOOSE
+% "In order to simulate the conjugate heat transfer problem; a calculation program for simulating fluid-solid conjugate heat transfer problems is developed on the MOOSE platform..."
+% Paper is in Chinese, but this excerpt is from an English translation of the abstract and the title is a Google translation.
+% This is a link to the journal TOC. 2023 Issue 4 was not available at the time I initially found this reference
+% https://caod.oriprobe.com/journals/zsdxxb/Acta_Scientiarum_Naturalium_Universitatis_Sunyatseni.htm
+@Article{Zhongshan_2023,
+  author  = {Daxue Xuebao Zhongshan},
+  title   = {Development and verification of fluid-solid conjugate heat transfer program based on finite elements},
+  journal = {Acta Scientiarum Naturalium Universitatis Sunyatseni},
+  month   = jul,
+  year    = 2023,
+  volume  = 62,
+  number  = 4,
+  pages   = {108--115},
+  note    = {\url{https://tinyurl.com/bddfecp3}}
+}
+
+% MOOSE
+% Got PDF copy of the paper from the authors on ResearchGate. It does cite MOOSE, but there is no sentence
+% confirming that MOOSE is actually used for the phase-field simulations which are shown in the paper.
+% I confirmed with the author, Fangping Zhuo that MOOSE is mentioned in the "Supporting Information"
+% document even though it is not mentioned in the main manuscript.
+@Article{FZhuo_2023,
+  author  = {Fangping Zhuo and Xiandong Zhou and Shuang Gao and Felix Dietrich and Pedro B. Groszewicz and Lovro Fulanovi{\'{c}} and Patrick Breckner and Bai-Xiang Xu and Hans-Joachim Kleebe and Dragan Damjanovic and J{\"{u}}rgen R{\"{o}}del},
+  title   = {Intrinsic-strain engineering by dislocation imprint in bulk ferroelectrics},
+  journal = {Physical Review Letters},
+  month   = jul,
+  year    = 2023,
+  volume  = 131,
+  number  = 1,
+  pages   = {016801 (7 pages)},
+  note    = {\url{https://doi.org/10.1103/PhysRevLett.131.016801}}
+}
+
+% libMesh/SAMRAI
+% "This software relies on SAMRAI for its finite difference framework, libMesh for its finite element framework, ..."
+@Misc{Davey_2023,
+  author       = {Marshall Davey and Charles Puelz and Simone Rossi and Margaret Anne Smith and David R. Wells and Greg Sturgeon and W. Paul Segars and John P. Vavalle and Charles S. Peskin and Boyce E. Griffith},
+  title        = {Simulating cardiac fluid dynamics in the human heart},
+  month        = jul,
+  year         = 2023,
+  howpublished = {ArXiv e-print},
+  note         = {\url{https://arxiv.org/abs/2307.02680}}
+}
+
 % MOOSE/Griffin
 % "We implemented this functionality in Griffin..."
 % This is a PHYSOR 2022 conference paper that was published in NSE
@@ -842,19 +913,6 @@ @Article{Dhole_2023
   note    = {\url{https://doi.org/10.1016/j.msea.2023.144883}}
 }
 
-% MOOSE
-% "Numerical implementation of the model is carried out ... in ... (MOOSE)"
-% https://www.researchgate.net/publication/369266382_A_thermodynamically_consistent_non-isothermal_phase-field_model_for_selective_laser_sintering_additive_manufacturing
-% author:liang author:yin author:wang author:yi thermodynamically consistent additive manufacturing
-@Misc{Liang_2023,
-  author       = {Chenguang Liang and Yan Yin and Wenxuan Wang and Min Yi},
-  title        = {A thermodynamically consistent non-isothermal phase-field model for selective laser sintering additive manufacturing},
-  month        = mar,
-  year         = 2023,
-  howpublished = {ResearchGate Preprint},
-  note         = {\url{https://tinyurl.com/39xaxmae}}
-}
-
 % libMesh
 % "We note, the discretization of the minimization problem is performed using the
 % finite element framework libMesh ..."

doc/statistics/github_traffic_plotclones.csv

@@ -3259,4 +3259,11 @@
 2023-Jul-07,118,48
 2023-Jul-08,46,21
 2023-Jul-09,38,10
-2023-Jul-10,50,19
+2023-Jul-10,146,46
+2023-Jul-11,111,27
+2023-Jul-12,90,28
+2023-Jul-13,66,30
+2023-Jul-14,97,60
+2023-Jul-15,53,19
+2023-Jul-16,36,12
+2023-Jul-17,50,25

doc/statistics/github_traffic_plotviews.csv

@@ -3428,4 +3428,11 @@
 2023-Jul-07,107,20
 2023-Jul-08,182,9
 2023-Jul-09,56,9
-2023-Jul-10,118,14
+2023-Jul-10,479,40
+2023-Jul-11,176,40
+2023-Jul-12,188,27
+2023-Jul-13,152,27
+2023-Jul-14,134,20
+2023-Jul-15,69,9
+2023-Jul-16,26,8
+2023-Jul-17,61,13