StopkaKris
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@@ -11,6 +11,6 @@ redirect_from:
 
 
 
-<iframe src="/files/Krzysztof_Stopka_CV_September_2025_public.pdf" width="100%" height="1400" frameborder="no" border="0" marginwidth="0" marginheight="0"></iframe>
+<iframe src="/files/Krzysztof_Stopka_CV_December_2025_public.pdf" width="100%" height="1400" frameborder="no" border="0" marginwidth="0" marginheight="0"></iframe>
 
-Updated September 2025. You can download a PDF copy of my CV [here](/files/Krzysztof_Stopka_CV_September_2025_public.pdf).
+Updated December 2025. You can download a PDF copy of my CV [here](/files/Krzysztof_Stopka_CV_December_2025_public.pdf).
@@ -7,14 +7,10 @@ author_profile: true
 
 Summary: 10 first-author, 13 co-author
 
-  0. A unified model for microstructure-sensitive fatigue crack initiation across low and high cycle fatigue
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-     <b>K. S. Stopka</b> and M. D. Sangid. A unified model for microstructure-sensitive fatigue crack initiation across low and high cycle fatigue. (in review)
-
-  0. A framework for fast microstructure-sensitive fatigue life predictions
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-     L. Loiodice, <b>K. S. Stopka</b>, and M. D. Sangid. A framework for fast microstructure-sensitive fatigue life predictions. (in revision)
+  0. [A unified model for microstructure-sensitive fatigue crack initiation across low and high cycle fatigue](https://doi.org/10.1016/j.matdes.2025.115382)
 
+     <b>K. S. Stopka</b> and M. D. Sangid. A unified model for microstructure-sensitive fatigue crack initiation across low and high cycle fatigue. <i>J. Mech. Phys. Solids</i>, <b>261</b>, 115283 (2026)
+	 
   0. [Experimental and microstructure sensitive fatigue modeling of the effects of periodic dwell and overload on additively manufactured Ti-6Al-4V](https://doi.org/10.1016/j.ijfatigue.2025.109299)
 
      H. Gaddam, T. A. Hodes, <b>K. S. Stopka</b>, and M. D. Sangid. Experimental and microstructure sensitive fatigue modeling of the effects of periodic dwell and overload on additively manufactured Ti-6Al-4V. <i>Int. J. Fatigue</i>, <b>203</b>, 109299 (2026)
@@ -23,6 +19,10 @@ Summary: 10 first-author, 13 co-author
 
      L. Zisis, <b>K. S. Stopka</b>, M. I. Alam, Z. D. Harris, and M. D. Sangid. Modeling the Influence of Hydrogen on Ni201 Plastic Behavior through Integration of Experimental Observations and Multiobjective Optimization. <i>J. Mech. Phys. Solids</i>, <b>206</b>, 106345 (2026)
 
+  0. [A framework for fast microstructure-sensitive fatigue life predictions](https://doi.org/10.1002/adem.202502138)
+
+     L. Loiodice, <b>K. S. Stopka</b>, and M. D. Sangid. A framework for fast microstructure-sensitive fatigue life predictions.  <i>Adv. Eng. Mater.</i>, e202502138 (2025)
+
   0. [Quantifying precursors to void nucleation and coalescence in Aluminum](https://doi.org/10.1016/j.actamat.2025.121295)
 
      J. J. Solano, S. E. Gustafson, P. J. Noell, <b>K. S. Stopka</b>, J-S. Park, P. Kenesei, K. Johnson, and M. D. Sangid. Quantifying precursors to void nucleation and coalescence in Aluminum. <i>Acta Mater.</i>, <b>296</b>, 121295 (2025)