Add to ORKGIn air-jet weaving looms the yarn is initially accelerated by the main nozzle. To obtain a high yarn velocity a high air velocity is required which results in complex flow patterns. Consequently, predicting the influence of a change in geometry or inlet pressure on the yarn velocity is not straightforward. In this research a fast time-dependent fluid-structure interaction framework is used to model the acceleration of a yarn during launch. Initially, the performance of the framework is assessed by considering a smooth monofilament yarn. A suggestion is also madeand tested to deal with the surface texture of hairy/multifilament yarns
An account is given of an experimental investigation of the characteristics of the air-flow in a sca...
A comprehensive review of the roles played by the airflow, wetting and spin finish on the air-jet te...
45-51A simulation model has been suggested for a single nozzle air-jet loom to analyse weft yarn mot...
In air-jet weaving looms the yarn is initially accelerated by the main nozzle. To obtain a high yarn...
In this research, a fluid-structure interaction (FSI) framework was established to estimate the velo...
Air jet weaving looms are widely used to weave fabrics because of the high production speed that can...
In this research a structural solver and flow solver are coupled to simulate the motion of a nylon y...
Air flow is employed in many textile processes to transport or to excite yarns to move in specific d...
Fluid (drag) forces acting on filaments in an air-flow are theoretically analysed, and equations to ...
Yarn hairiness is defined as the protruding fibers and loops standing out of the core of the yarns. ...
The analysis of the airflow from sub-nozzles having different emitting cross-section is described. A...
Nozzle is the main part of various spinning systems such as air-jet and Murata air vortex systems. R...
Although air-jet looms run faster than mechanical weft insertion looms such as rapier or shuttle loo...
In an air-jet loom a yarn (called the weft) is inserted in between perpendicular threads (the warp t...
金沢大学理工研究域機械工学系Various kinds of airflow are used for operating yarn during textile processes. In this...
An account is given of an experimental investigation of the characteristics of the air-flow in a sca...
A comprehensive review of the roles played by the airflow, wetting and spin finish on the air-jet te...
45-51A simulation model has been suggested for a single nozzle air-jet loom to analyse weft yarn mot...
In air-jet weaving looms the yarn is initially accelerated by the main nozzle. To obtain a high yarn...
In this research, a fluid-structure interaction (FSI) framework was established to estimate the velo...
Air jet weaving looms are widely used to weave fabrics because of the high production speed that can...
In this research a structural solver and flow solver are coupled to simulate the motion of a nylon y...
Air flow is employed in many textile processes to transport or to excite yarns to move in specific d...
Fluid (drag) forces acting on filaments in an air-flow are theoretically analysed, and equations to ...
Yarn hairiness is defined as the protruding fibers and loops standing out of the core of the yarns. ...
The analysis of the airflow from sub-nozzles having different emitting cross-section is described. A...
Nozzle is the main part of various spinning systems such as air-jet and Murata air vortex systems. R...
Although air-jet looms run faster than mechanical weft insertion looms such as rapier or shuttle loo...
In an air-jet loom a yarn (called the weft) is inserted in between perpendicular threads (the warp t...
金沢大学理工研究域機械工学系Various kinds of airflow are used for operating yarn during textile processes. In this...
An account is given of an experimental investigation of the characteristics of the air-flow in a sca...
A comprehensive review of the roles played by the airflow, wetting and spin finish on the air-jet te...
45-51A simulation model has been suggested for a single nozzle air-jet loom to analyse weft yarn mot...