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Antonio Vinci

Teaching tutor

Department of Industrial Chemistry "Toso Montanari"

Publications

Articoli su rivista (peer-reviewed)
  1. M. Mor, A. Vinci*, D. Sciti, L. Zoli, Influence of different liquid phase sintering aids on the oxidation resistance of UHTCMCs with a ZrB₂ matrix, Journal of the European Ceramic Society, accepted, 2026.
  2. D. Sciti, A. Vinci*, B. Zanardi, M. Mor, S. Failla, L. Zoli, Densification, thermodynamics and interfaces of liquid phase sintered carbon fibres reinforced ZrB₂/SiC composites, Composites Part A, 206, 109765, 2026.
  3. M. Meiser, M. Mor, N. Langhof, A. Vinci, P. Galizia, B. Alber-Laukant, S. Tremmel, S. Schafföner, D. Sciti, Tribological studies of carbon fiber reinforced zirconium diboride based UHTCMC-material paired with carbon disk material, Journal of the European Ceramic Society, 2026.
  4. A. Vinci*, J. Erik Foerster, R. Naraparaju, D. Sciti, Enhanced oxidation resistance at 1700 °C of Cf-ZrB₂/SiC composites via NbB₂/NbC layered coatings, Corrosion Science, 206, 113521, 2026.
  5. A. Vinci, M. Mor, L. Zoli, D. Sciti, Effect of WC addition on the mechanical properties and oxidation resistance of ZrB₂/SiC-based UHTCMCs, International Journal of Applied Ceramic Technology, 22(6), 70031, 2025.
  6. A. Vinci, M. Mor, S. Failla, P. Galizia, L. Zoli, D. Sciti, Novel CMCs based on B₄C–TiB₂ blends and carbon fibres, Journal of the European Ceramic Society, 45(10), 117355, 2025.
  7. M. Mor, M. Meiser, N. Langhof, A. Vinci, L. Zoli, B. Laukant, S. Tremmel, S. Schaffoener, D. Sciti, Dry tribological behavior of 0/90° continuous carbon fiber reinforced ZrB₂-based UHTC-material, Journal of the European Ceramic Society, 44(14), 116664, 2024.
  8. A.M. Caporale, P. Galizia, B. Zanardi, A. Vinci, D. Sciti, A. Airoldi, A bi-phasic numerical approach for non-linear response and stiffness recovery related to residual thermal stress in UHTCMCs, Journal of the European Ceramic Society, 44(10), 5579–5589, 2024.
  9. M. Mor, A. Vinci, D. Sciti, Processing and oxidation resistance at 1650°C of ZrB₂-based UHTCMCs with short fibre gradients, Journal of the European Ceramic Society, 44(7), 4536–4548, 2024.
  10. D. Sciti et al., Elevated temperature performance: Arc-jet testing of carbon fiber reinforced ZrB₂ bars up to 2200 °C for strength retention assessment, Journal of Advanced Ceramics, 14, 9221022, 2025.
  11. L. Zoli et al., ZrB₂–SiC ceramics toughened with oriented paper-derived graphite for a sustainable approach, Journal of Advanced Ceramics, 13(2), 207–219, 2024.
  12. L. Zoli et al., From outer space to inside the body: Ultra-high temperature ceramic matrix composites for biomedical applications, Journal of the European Ceramic Society, 44(2), 729–737, 2024.
  13. M. Mor et al., Tribological behavior of carbon fiber reinforced ZrB₂-based ultra high temperature ceramics, Journal of the European Ceramic Society, 43(13), 5413–5424, 2023.
  14. D. Sciti et al., Propulsion tests on ultra-high-temperature ceramic matrix composites for reusable rocket nozzles, Journal of Advanced Ceramics, 12(7), 1345–1360, 2023.
  15. L. Silvestroni et al., Melt/solid interaction and melt super-saturation effect on the microstructure asset of ultra-refractory composites prepared by reactive melting infiltration, Journal of Alloys and Compounds, 947, 169521, 2023.
  16. T. Reimer et al., Experimental characterization of fatigue life of ZrB₂–SiC based ultra high-temperature ceramic matrix composites, International Journal of Fatigue, 168, 107389, 2023.
  17. A. Vinci*, Synthesis, microstructure and mechanical properties of lamellar YB₂C₂–based ultra-high temperature ceramic composites, Journal of the European Ceramic Society, 43(3), 831–841, 2023.
  18. P. Galizia et al., Elevated temperature tensile and bending strength of ultra-high temperature ceramic matrix composites obtained by different processes, Journal of the European Ceramic Society, 43(11), 4588–4601, 2023.
  19. M. Mor et al., A novel approach for manufacturing of layered, ultra-refractory composites using pliable, short fibre-reinforced ceramic sheets, Journal of Advanced Ceramics, 12(1), 155–168, 2023.
  20. A. Vinci et al., Advancements in carbon fibre reinforced ultra-refractory ceramic composites: Effect of rare earth oxides addition, Composites Part A, 156, 106858, 2022.
  21. D. Sciti et al., A systematic approach for horizontal and vertical scale up of sintered Ultra-High Temperature Ceramic Matrix Composites for aerospace – Advances and perspectives, Composites Part B, 234, 109709, 2022.
  22. B. Baker et al., Ablation behaviour of carbon fibre ultra-high temperature composites at oblique angles of attack, Materials & Design, 212, 110199, 2021.
  23. P. Galizia et al., Retained strength of UHTCMCs after oxidation at 2278 K, Composites Part A, 149, 106523, 2021.
  24. F. Servadei et al., Significant improvement of the self-protection capability of ultra-high temperature ceramic matrix composites, Corrosion Science, 189, 109575, 2021.
  25. D. Sciti et al., Properties of large scale ultra-high temperature ceramic matrix composites made by filament winding and spark plasma sintering, Composites Part B, 216, 108839, 2021.
  26. A. Vinci et al., Influence of pressure on the oxidation resistance of carbon fiber reinforced ZrB₂/SiC composites at 2000 and 2200°C, Corrosion Science, 184, 109377, 2021.
  27. D. Sciti et al., Effect of PAN-based and pitch-based carbon fibres on microstructure and properties of continuous Cf/ZrB₂–SiC UHTCMCs, Journal of the European Ceramic Society, 41(5), 3045–3050, 2021.
  28. A. Vinci et al., Influence of Y₂O₃ addition on the mechanical and oxidation behaviour of carbon fibre reinforced ZrB₂/SiC composites, Journal of the European Ceramic Society, 40(15), 5067–5075, 2020.
  29. F. Servadei et al., Development of UHTCMCs via water based ZrB₂ powder slurry infiltration and polymer infiltration and pyrolysis, Journal of the European Ceramic Society, 40(15), 5076–5084, 2020.
  30. A. Vinci et al., Reactive melt infiltration of carbon fibre reinforced ZrB₂/B composites with Zr₂Cu, Composites Part A, 137, 105973, 2020.
  31. L. Zoli et al., Is spark plasma sintering suitable for the densification of continuous carbon fibre–UHTCMCs?, Journal of the European Ceramic Society, 40(7), 2597–2603, 2020.
  32. A. Vinci et al., Influence of fibre content on the strength of carbon fibre reinforced HfC/SiC composites up to 2100 °C, Journal of the European Ceramic Society, 39(13), 3594–3603, 2019.
  33. L. Silvestroni et al., Ablation behaviour of ultra-high temperature ceramic matrix composites: Role of MeSi₂ addition, Journal of the European Ceramic Society, 39(9), 2771–2781, 2019.
  34. S. Mungiguerra et al., Arc-jet wind tunnel characterization of ultra-high-temperature ceramic matrix composites, Corrosion Science, 149, 18–28, 2019.
  35. A. Vinci et al., Mechanical behaviour of carbon fibre reinforced TaC/SiC and ZrC/SiC composites up to 2100°C, Journal of the European Ceramic Society, 39(4), 780–787, 2019.
  36. S. Failla et al., Toughening effect of non-periodic fiber distribution on crack propagation energy of UHTC composites, Journal of Alloys and Compounds, 777, 612–618, 2018.
  37. L. Zoli et al., On the thermal shock resistance and mechanical properties of novel unidirectional UHTCMCs for extreme environments, Scientific Reports, 8, 9148, 2018.
  38. D. Sciti et al., Introduction to H2020 project C3HARME–next generation ceramic composites for combustion harsh environment and space, Advances in Applied Ceramics, 117, 70–75, 2018.
  39. A. Vinci et al., Influence of SiC content on the oxidation of carbon fibre reinforced ZrB₂/SiC composites at 1500 and 1650 °C in air, Journal of the European Ceramic Society, 38(11), 3767–3776, 2018.
  40. A. Vinci et al., Understanding the mechanical properties of novel UHTCMCs through random forest and regression tree analysis, Materials & Design, 145, 97–107, 2018.
  41. L. Zoli et al., Rapid spark plasma sintering to produce dense UHTCs reinforced with undamaged carbon fibres, Materials & Design, 130, 1–7, 2017.
  42. A. Vinci et al., Oxidation behavior of a continuous carbon fibre reinforced ZrB₂/SiC composite, Corrosion Science, 127, 129–138, 2017.

Capitoli di libro

  1. L. Zoli, D. Sciti, P. Galizia, A. Vinci, F. Monteverde, S. Failla, L. Silvestroni, Ultra-High Temperature Ceramic Matrix Composites, Encyclopedia of Materials: Technical Ceramics and Glasses, 2, 340–352, 2021.

Conference proceedings

  1. A. Vinci*, L. Zoli, S. Mungiguerra, R. Savino, D. Sciti, Advancements in ultra-high temperature ceramic matrix composites for extreme environments, Proceedings of the International Astronautical Congress (IAC 2025), Australia, 29 Sept–3 Oct 2025.
  2. A. Vinci*, L. Zoli, P. Galizia, L. Silvestroni, C. Gutiérrez, S. Rivera, D. Sciti, Fabrication and characterization of UHTCMCs, Proceedings of the 36th ASC Technical Conference, Texas, 19–23 Sept 2021.
  3. G. Di Martino, S. Mungiguerra, A. Cecere, R. Savino, L. Zoli, A. Vinci, L. Silvestroni, D. Sciti, Ultra-high-temperature ceramic matrix composites for hybrid rocket nozzles, Proceedings of the International Astronautical Congress (IAC 2019), Washington, 21–25 Oct 2019.
  4. A. Vinci*, L. Zoli, D. Sciti, Processing and characterization of carbon fibre reinforced ZrB₂/SiC/WC composites, Proceedings of the 1st Workshop for Young Ceramists, 2018.
  5. G. Di Martino, S. Mungiguerra, A. Cecere, R. Savino, A. Vinci, L. Zoli, D. Sciti, Hybrid rockets with nozzle in ultra-high-temperature ceramic composites, Proceedings of the International Astronautical Congress (IAC 2018), Germany, 1–5 Oct 2018.
  6. D. Sciti*, L. Silvestroni, L. Zoli, A. Vinci, F. Monteverde, Introduction to H2020 project C3HARME: Next generation ceramic composites for combustion harsh environments and space, Proceedings of ECI Conference, UK, 17–20 Sept 2017.

 

 

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