Development and Optimization of Lithium Aluminosilicate Glass-Ceramic Materials with High β-Spodumene Content for Armor Protection

DOI: https://doi.org/10.23939/cte2025.01.082
Development, Energy and Resource Saving in the Chemical and Food Technologies
pp.
82-85
Анотація

This paper presents lithium aluminosilicate glass‑ceramics with up to 80% β‑spodumene developed using optimized compositions and a two‑stage heat treatment. The materials exhibit high hardness (8.5–9.0 GPa), optimal elasticity (318–324 GPa), fracture toughness (8.0–8.4 MPa·m^0.5), and low density (2400–2420 kg/m³), making them promising for lightweight armor.

Ключові слова (англійською)
lithium aluminosilicate
glass-ceramic material
armor protection
β‑spodumene
two‑stage heat treatment
catalysts
modifying components
impact resistance
optimization
Автор (співавтори)
Ім'я Прізвище Приналежність до організації E-mail Номер телефону ORCID ID Вчене звання, посада Адреса організації Внесок автора(ів) Приналежність до організації
Sviatoslav
Riabinin
riabinin_svyatoslav@hotmail.com
0000-0003-2972-8540
UKRAINE, Kharkiv, 2 Kyrpychova str.
Дослідження
National Technical University «Kharkiv Polytechnic Institute»
Artem
Zakharov
zakharovartem106@gmail.com
0000-0002-0120-8263
UKRAINE, Kharkiv, 2 Kyrpychova str.
Методологія
National Technical University «Kharkiv Polytechnic Institute»
Mykyta
Maistat
aichemict777@gmail.com
0000-0002-1875-3946
UKRAINE, Kharkiv, 2 Kyrpychova str.
Візуалізація
National Technical University «Kharkiv Polytechnic Institute»
References

[1]     LaSalvia, J. C., Kirihara, S., & Widjaja, S. (Eds.). (2014). Advances in Ceramic Armor IX: A Collection of Papers Presented at the 37th International Conference on Advanced Ceramics and Composites, January 27-February 1, 2013, Daytona Beach, Florida. John Wiley & Sons, Incorporated.

[2]     Cannillo, V., Lusvarghi, L., Manfredini, T., Montorsi, M., Siligardi, C., & Sola, A. (2007). Glass–ceramic functionally graded materials produced with different methods. Journal of the European Ceramic Society, 27(2-3), 1293-1298.

[3]     Akella, K. (2020). Multilayered ceramic-composites for armour applications. Handbook of Advanced Ceramics and Composites: Defense, Security, Aerospace and Energy Applications, 403-433.

[4]     Tam, T., & Bhatnagar, A. (2006). High performance ballistic fibers. In Lightweight ballistic composites (pp. 189-209). Woodhead Publishing.

[5]       Song, J. W. (2006). Fabrics and composites for ballistic protection of personnel. In Lightweight ballistic composites (pp. 210-239). Woodhead Publishing.

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