Please use this identifier to cite or link to this item: https://er.knutd.edu.ua/handle/123456789/19018
Title: Development of 3D models of knits from multi-filament ultra-strong yarns for theoretical modelling of air permeability
Other Titles: Розробка 3D-моделей трикотажу з багатофіламентних надміцних ниток для теоретичного моделювання повітропроникності
Authors: Ielina, Tetiana
Halavska, Liudmyla
Mikucioniene, Daiva
Milasius, Rimvydas
Bobrova, Svitlan
Dmytryk, Oksana
Keywords: knit
plain stitch
multi-filament yarn
3D model
stretching
air permeability
трикотаж
багатофіламентна пряжа
3D модель
розтягування
повітропроникність
Issue Date: 23-Jun-2021
Citation: Development of 3D models of knits from multi-filament ultra-strong yarns for theoretical modelling of air permeability [Електронний ресурс] / T. Ielina, L. Halavska, D. Mikucioniene, R. Milasius, S. Bobrova, O. Dmytryk // Materials. – 2021. – Volume 14, Issue 13 (July-1 2021), 3489. – P. 1-13. – Режим доступу: https://www.mdpi.com/1996-1944/14/13/3489
Source: Materials
Abstract: The work is devoted to the study of the geometric parameters of a knitted loop. It has been found that the optimal model is a loop model detailed at the yarn level, which considers the change in the cross-sectional shape and sets the properties of the porous material in accordance with the internal porosity of the yarn. A mathematical description of the coordinates of the characteristic points of the loop and an algorithm for calculating the coordinates of the control vertices of the second order spline, which determine the configuration of the yarn axes in the loop, are presented in this work. To create 3D models, Autodesk AutoCAD software and Structura 3D software, developed in the AutoLisp programming language, were used. The simulation of the air flow process was carried out in the Autodesk CFD Simulation environment. For the experimental investigation, plane knits from 44 tex × 3 linear density ultra-high molecular weight polyethylene yarns were produced, and their air permeability was tested according to Standard DSTU ISO 9237:2003. The results obtained during the laboratory experiment and simulation differed by less than 5%.
DOI: 10.3390/ma14133489
URI: https://er.knutd.edu.ua/handle/123456789/19018
Faculty: Факультет індустрії моди
Department: Кафедра технології та дизайну текстильних матеріалів
ISSN: 1996-1944
Appears in Collections:Наукові публікації (статті)
Кафедра технології моди (ТМ)

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