Optimising the Production Process of Rieter Air Jet Spun Yarns and a Model for Prediction of their Strength
Research and development
Authors:
- Eldeeb Moaz
Department of Textile Technology, Faculty of Textile Engineering, Technical University of Liberec, Liberec, Czech Republic - Demir A.
Department Textile Engineering, Faculty of Textile Technologies and Design, Istanbul Technical University, Istanbul, Turkey
Nr DOI: 10.5604/01.3001.0010.7794
 Full text | references | Abstract: In this study, the effect of yarn linear density, delivery speed and nozzle pressure on Rieter air jet spun yarn strength was investigated. A multiple regression model was used to study the combined effect of these parameters and response surfaces were obtained. Results showed that by increasing the nozzle pressure, the yarn tensile strength improves till a specific limit, then it deteriorates afterwards. Based on the different combinations of processing variables, optimal running conditions were obtained. Along with the experiment, a mathematical model that predicts air jet spun yarn strength at a short gauge length has been presented. Fibre parameters in addition to yarn structural parameters were used to obtain the theoretical yarn strength. The results showed a satisfactory agreement between the experimental and theoretical results. |
Tags:
air jet spinning, linear density, strength, nozzle pressure, delivery speed, prediction,
structure.
Citation:
Eldeeb M, Demir A. Optimising the Production Process of Rieter Air Jet Spun Yarns and a Model for Prediction of their Strength. FIBRES & TEXTILES in Eastern Europe 2018; 26, 1(127): 36-41. DOI: 10.5604/01.3001.0010.7794