Add to ORKGTo simulate the influence of process parameters to the melt spinning process a fiber model is used and coupled with CFD calculations of the quench air flow. In the fiber model energy, momentum and mass balance are solved for the polymer mass flow. To calculate the quench air the Lattice Boltzmann method is used. Simulations and experiments for different process parameters and hole configurations are compared and show a good agreement
Abstract. Melt spinning of the fibers by supersonic air jet in the Laval nozzle is a novel, efficien...
For the stability of composite fibre spinning, the difference in and distribution of the polymer mel...
Amacroscopic model for the description of low- and high-speed fiber spinning of crystallizing polyme...
To simulate the influence of process parameters to the melt spinning process a fiber model is used a...
The production of glass and synthetic fibers by melt spinning is an important industrial process. Ma...
Simulation of the whole spunbond process for the production of nonwovens poses several computational...
A modified melt spinning apparatus with a high-speed air nozzle was designed and fabricated to produ...
In the technical textile industry models and simulations of underlying manufacturing processes incre...
In this dissertation a model of melt spinning (by Doufas, McHugh and Miller) has been investigated. ...
The purpose of this study is to develop a steady-state thermal model for melt spinning of polyester ...
In many spinning processes, as for example in dry spinning, solvent evaporates out of the spun jets ...
A macroscopic model for the description of low- and high-speed fiber spinning of crystallizing polym...
The present work deals with the study of heat transfer, fluid flow and solidification phenomena of r...
Ceramic fibers for high-tech applications require intensive developments concerning precursor synthe...
Traditionally ultrafine fibers below 1 dpf are produced by extrusion followed by mechanical drawing....
Abstract. Melt spinning of the fibers by supersonic air jet in the Laval nozzle is a novel, efficien...
For the stability of composite fibre spinning, the difference in and distribution of the polymer mel...
Amacroscopic model for the description of low- and high-speed fiber spinning of crystallizing polyme...
To simulate the influence of process parameters to the melt spinning process a fiber model is used a...
The production of glass and synthetic fibers by melt spinning is an important industrial process. Ma...
Simulation of the whole spunbond process for the production of nonwovens poses several computational...
A modified melt spinning apparatus with a high-speed air nozzle was designed and fabricated to produ...
In the technical textile industry models and simulations of underlying manufacturing processes incre...
In this dissertation a model of melt spinning (by Doufas, McHugh and Miller) has been investigated. ...
The purpose of this study is to develop a steady-state thermal model for melt spinning of polyester ...
In many spinning processes, as for example in dry spinning, solvent evaporates out of the spun jets ...
A macroscopic model for the description of low- and high-speed fiber spinning of crystallizing polym...
The present work deals with the study of heat transfer, fluid flow and solidification phenomena of r...
Ceramic fibers for high-tech applications require intensive developments concerning precursor synthe...
Traditionally ultrafine fibers below 1 dpf are produced by extrusion followed by mechanical drawing....
Abstract. Melt spinning of the fibers by supersonic air jet in the Laval nozzle is a novel, efficien...
For the stability of composite fibre spinning, the difference in and distribution of the polymer mel...
Amacroscopic model for the description of low- and high-speed fiber spinning of crystallizing polyme...