PSI - Issue 74

Karel Slámečka et al. / Procedia Structural Integrity 74 (2025) 85 – 90 Karel Slámečka / Structural Integrity Procedia 00 (202 5 ) 000 – 000

90 6

References

Coffigniez, M., Gremillard, L., Balvay, S., Lachambre, J., Adrien, J., Boulnat, X., 2021. Direct- ink writing of strong and biocompatible titanium scaffolds with bimodal interconnected porosity. Additive Manufacturing 39, 101859. du Plessis, A., Razavi, N., Benedetti, M., Murchio, S., Leary, M., Watson, Bhate, D. Berto, F., 2022. Properties and applications of additively manufactured metallic cellular materials: A review. Progress in Materials Science 125, 100918. German, R.M., 2020, Titanium sintering science: a review of atomic events during densification, 2020. International Journal of Refractory Metals and Hard Materials 89, 105214. Gobbi, S.J., Gobbi, V.J., Reinke, G., Rocha, Y., 2019. Orthopedic implants: coating with TiN. Biomedical Journal of Scientifi c & Technical Research 16, 2786–2791. Guo, T., Chen, Y ., Cao, R., Pang, X., He, J., Qiao, L., 2018. Cleavage cracking of ductile -metal substrates induced by brittle coating fracture. Acta Materialia 152, 77–85. Kachit, M., Kopp, A., Adrien, J., Maire, E., Boulnat, X., 2022. Direct- ink writing and compression behavior by in situ micro -tomography of architectured 316L scaffolds with a two-scale porosity. Journal of Materials Research and Technology 20, 1341–1351. Montufar, E.B., Tkachenko, S., Casas - Luna, M., Škarvada, P., Slámečka, K., Diaz -de-la- Torre, S., Koutný, D., Paloušek, D., Koledová, Z., Hernández- Tapia, L., Zikmund, T., Čelko, L., Kaiser, J., 2020. Benchmarking of additive manufacturing technologies for commercially -pure titanium bone-tissue-engineering scaffolds: processing-microstructure-property relationship, Additive Manufacturing 36, 101516. Roliński, E., 2016. Nitriding of titanium alloys. In: Totten, G.E., MacKenzie, D.S. (Eds.), ASM Handbook, Vol. 4E: Heat Treat ing of Non-Ferrous Alloys. ASM International, Mat erials Park, OH, pp. 604–621. Sakamoto, J., Tada, N., Uemori, T., 2023, Tensile properties and slip deformation behavior of pure titanium thin wire with a small diameter-to grain-size ratio. Materials Science and Engineering: A 863, 144532. Slámečka, K., Kashimbetova, A., Pokluda, J., Zikmund, T., Kaiser, J., Montufar, E.B., Čelko, L., 2023. Fatigue behaviour of titanium scaffo lds with hierarchical porosity produced by material extrusion additive manufacturing. Materials & Design 225, 111453. Slámečka, K., Skalka, P., Pokluda, J., 2024. Modeling mechanical properties of titanium scaffolds with variable microporosity. Advanced Engineering Materials, 2400535. Slámečka, K. Drotárová, L., Oliver - Urrutia, C., Tkachenko, S., Remešová, Gejdoš, P., Čelko, L., Montu far, E.B., 2025. Low-temperature gas nitriding effects on mechanical and biological properties of open-porous pure titanium produced by robotic micro-extrusion. Surface & Coatings Technology 505, 132084. Sushko, G.B., Verkhovtsev, A.V., Yakubovich, A.V., S chramm, S. A.V. Solov ’ yov, 2014. Molecular dynamics simulation of self-diffusion processes in titanium in bulk material, on grain junctions and on surface, The Journal of Physical Chemistry A 118, 6685–6691. Unal, O., Maleki, E., Varol, R., 2018. Effect of severe shot peening and ultra-low temperature plasma nitriding on Ti-6Al-4V alloy. Vacuum 150, 69–78. Zhao, S., Liu, H., Li, S., Wang, X., Sheng, Y., Zhang, P., Li, W., 2020. Combined effect of TiN coating and surface texture on corrosion-wear behavior of selective laser melted CP-titanium in simulated body fluid. Journal of Alloys and Compounds 816, 152667. Zhecheva, A., Sha, W., Malinov, S., Long, A., 2005. Enhancing the microstructure and properties of titanium alloys through nitriding and other surface engineering methods. Surface & Coatings Technology 200, 2192–2207.