Raw and Processed Data Repositories
Since 2018, we have consistently shared raw and processed data in permanent repositories for our papers. To date, we have uploaded approximately 41 GB of data across 10 research papers. We aim to continue and expand these data-sharing efforts for all future publications.
1. M.A. Tunes, D.M.S. Parkison, B. Sun, P.D. Willenshofer, S. Samberger, B.K. Derby, J.K.S. Baldwin, S.J. Fensin, D. Sobieraj, J.S. Wróbel, J. Byggmästar, S. Pogatscher, E. Martinez, D. Nguyen-Manh, and O. El-Atwani. Data for: High radiation resistance in the binary W-Ta system through small V additions: A new paradigm for nuclear fusion materials, Mendeley Data, Version 2, 2024. 10.17632/y326fsd8ww.2 (8.65 GB)
2. M.A. Tunes, D. Parkison, Y. Huang, M.R. Chancey, S. Vogel, E.P. Luther, J.A. Valdez, Y. Wang, J. Yu, M.N. Cinbiz, A.P. Shivprasad and C.A. Kohnert. Data For: Challenges in developing materials for microreactors: A case-study of yttrium dihydride in extreme conditions, Mendeley Data, Version 1, 2024. 10.17632/76c4bsk26b.1 (4.53 GB)
3. M.A. Tunes, S. Fritze, B. Osinger, A.M. Alvarado, E. Martinez, A.S. Menon, P. Ström, G. Greaves, E. Lewin, U. Jansson, S. Pogatscher, T.A. Saleh, V.M. Vishnyakov and O. El-Atwani. Data for: From high-entropy alloys to high-entropy ceramics: the radiation-resistant highly concentrated refractory carbide (CrNbTaTiW)C, Mendeley Data, Version 1, 2023. 10.17632/scsg3dpg2y.1 (9.48 GB)
4. M.A. Tunes, L. Stemper, G. Greaves, P.J. Uggowitzer and S. Pogatscher. Data for: Prototypic aluminium alloy design for stellar-radiation environments, Mendeley Data, Version 2, 2020. 10.17632/s5npfgnbv6.2 (1.13 GB)
5. D.S.R. Coradini, M.A. Tunes, T.M. Kremmer, C.G. Schön, P.J. Uggowitzer, S. Pogatscher.** Data for: Degradation of single-crystal Cu nanowires in a low-reactive plasma environment, Mendeley Data, Version , 2020. 10.17632/ydgcm2933y.3 (8.98 GB)
6. M.A. Tunes, G. Greaves, T.M. Kremmer, P.D. Edmondson, S. Pogatscher, S.E. Donnelly and C.G. Schön. Data for: Thermodynamics of an austenitic stainless steel (AISI-348) through in situ TEM heavy ion irradiations, Mendeley Data, Version 3, 2019. 10.17632/tvzc8f9w5z.3 (6.20 GB)
7. M.A. Tunes and V. Vishnyakov. Data for: Microstructural origins of the high mechanical damage tolerance of NbTaMoW refractory high-entropy alloy thin films, Mendeley Data, Version 3, 2019. 10.17632/3v9kj944d4.3 (1.05 GB)
8. M.A. Tunes, R.W. Harrison, S.E. Donnelly, and P.D. Edmondson. Data for: A Transmission Electron Microscopy study of the neutron-irradiation response of Ti-based MAX phases at high temperatures, Mendeley Data, Version 1, 2019. 10.17632/53whdj2znj.1 (10.7 MB)
9. M.A. Tunes, V.M. Vishnyakov, O. Camara, G. Greaves, P.D. Edmondson, Y. Zhang and S.E. Donnelly. Data for: A candidate accident tolerant fuel system based on a highly concentrated alloy thin film, Mendeley Data, Version 3, 2018. 10.17632/2nm52sxb7k.3 (559 MB)
10. M.A. Tunes, F.C. Silva, O. Camara, C.G. Schön, J.C. Sagás, L.C. Fontana, S.E. Donnelly, G. Greaves and P.D. Edmondson. Data for: Energetic particle irradiation study of TiN coatings, Mendeley Data, Version 2, 2018. 10.17632/54rygzkzkh.2 (31.9 MB)
Programming, Codes and Scripts
Pack of four MATLAB codes for:
1. M.A. Tunes et al. A primer in computational science of Stochastic Mechanics at undergraduate level, Journal of Physical Science, v.1(3), pp.22-32, 2015. Click here to download:
https://www.dropbox.com/sh/6zovcffbs28ddzq/AAA10FC9M0nlGV-wieyYVU3Ia?dl=0
2. M.A. Tunes. MATDPA integrates SRIM2013 to MATLAB for speeding up nuclear materials calculations:
https://materialsatextremes.com/2024/06/25/matdpa-integration-of-srim2013-into-matlab-for-nuclear-materials-calculations/