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Mikhail A. Farukh
Research Center of the Federal State Budgetary Institution “48 Central Research Institute” of the Ministry of Defense of Russia
Analysis of approaches to modeling fabric structure for designing woven flexible barriers for personal armour protection
Farukh M. A. Analysis of approaches to modelling fabric structure for designing woven flexible barriers for personal armour protection. Technologies & Quality. 2025. No 3(69). P. 12–19. (In Russ.) https://doi.org/10.34216/2587-6147-2025-3-69-12-19.
DOI: https://doi.org/10.34216/2587-6147-2025-3-69-12-19
УДК: 677.017.8
EDN: KTWSBZ
Publish date: 2025-09-09
Annotation: The article provides an overview of the main approaches to modelling single-layer woven structures. The advantages and disadvantages of each approach are considered. An analysis of the finite element representation of the thread is made to solve the problems of predicting the ballistic resistance of the fabric. The advantages and disadvantages of the described approaches are indicated. An analysis of works on methods and models for constructing the structure of single-layer fabrics is performed, taking into account various parameters of its structure. The disadvantages of the developed models and the areas of their application are analysed in detail. An overview of software for constructing 3D models of single-layer fabrics is made. Based on the information obtained, a technique for constructing the single-layer fabric structure 3D models is proposed, allowing them to be built for a wide class of weaving interlacing, at that taking into account the main parameters of its structure. General conclusions are made.
Keywords: woven structures modelling, 3D models of fabric structure, personal protective equipment, single-layer fabrics, weaving interlacing, finite element representation of thread, fabric parameters
Literature list: 1. Ignatova A. V. Analysis of the kinetics of deformation and fracture of layered fabric structures with thin coatings under local impact. Cand. techn. sci. dis. Perm, 2021. 145 p. (In Russ.) 2. Ha-Minh C., Imad A., Kanit T., Boussu F. Numerical analysis of a ballistic impact on textile fabric. International Journal of Mechanical Sciences. 2013;69:32–39. 3. Dolganina N. Yu., Ignatova A. V. Study of the influence of the type of thread interlacing on the strength of fabric barriers under local impact. Vestnik Yuzhno-Ural’skogo Gosudarstvennogo Universiteta. Seriya: Mashinostroenie [Bulletin of the South Ural State University. Series: Mechanical Engineering]. 2013;13,2:95–104. (In Russ.) 4. Kozhanov D. A. Modeling the behavior of flexible woven composites under tension. Cand. of phys. and math. sci. dis. Nizhny Novgorod, 2017. 117 p. (In Russ.) 5. Lipatova L. A. Development of methods for assessing and studying the formability of multilayer composite textile materials. Cand. tech. sci. dis. Moscow, 2017. 206 p. (In Russ.) 6. Stepanov S. G., Dzhanpaizova V. M., Myrkhalykov Zh. U., Kenzhibaeva G. S., Turakulov B. S. Mathematical model of the structure of technical fabrics for the production of thermoplastic composite materials using reduced technology. Izvestiya vysshih uchebnyh zavedenij. Seriya Teknologiya Tekstil’noi Promyshlennosti [Proceedings of Higher Educational Institutions. Series Textile Industry Technology]. 2020;4(388):79–83. (In Russ.) 7. Grechukhin A. P., Rudovsky P. N. Development of the theory of structure and formation of single-layer fabrics. Kostroma, Kostroma St. Univ. Publ., 2017. 172 p. (In Russ.) 8. Sokova G. G. Theoretical and practical aspects of automated analysis and design of linen fabrics. Doct. techn. sci. dis. Kostroma, 2009. 303 p. (In Russ.) 9. Kiselev A. M., Kiselev M. V. Development of systems for designing the structure and quality control of solid 3D preforms. Kostroma, Kostroma St. Univ. Publ., 2018. 177 p. (In Russ.) 10. Stepanov S. G. Development of the theory of formation and structure of fabric based on nonlinear mechanics of flexible threads. Doct. techn. sci. dis. Ivanovo, 2007. 443 p. (In Russ.) 11. Primachenko B. M. Development of a mechanical-analytical method for predicting the structural parameters of household and technical fabrics. Mechanical-analytical model of fabric structure. Continuation. Dizajn. Materialy. Tekhnologiya [Design. Materials. Technology]. 2010;4(15):72–77. (In Russ.) 12. Primachenko B. M. Development of methods for predicting the structure and performance properties of fabrics for household and technical purposes based on the technological parameters of their production Doct. techn. sci. dis. Saint Peterburg, 2009. 406 p. (In Russ.) 13. Fedorchenko E. V., Zakora O. V., Kirilchuk I. E. Innovative approach to the design of fabrics of combined weaves with long insertions. Materialy i tekhnologii [Materials and technologies]. 2018;1(1):28– 32. (In Russ.) 14. Calculation of the main parameters of the structure of a single-layer fabric. Computer program. Registration number (certificate): 2016610065. Date of registration: 11.01.2016. 15. Kiselev M. V., Farukh M. A. Creation of a ballistic barrier package based on aramid and carbon threads with enhanced protective properties. Innovatsionnye tekstil’nye tekhnologii. Perspektivy razvitiya [Innovative textile technologies. Development prospects]. Abstracts of reports of the IV All-Russian scientific student conference with international participation (November 23, 2023). Moscow, Kosygin Russian St. Univ. Publ., 2023. P. 40–41.
Author's info: Mikhail A. Farukh, Research Center of the Federal State Budgetary Institution “48 Central Research Institute” of the Ministry of Defense of Russia, Moscow, Russia, faruh_mihail@mail.ru; https://orcid.org/0009-0004-6039-9719