Tensile Force Measurements in the PA 6 High Speed Fiber Spinning and their Utility
-
R. Beyreuther
Abstract
The paper deals with practical and theoretical investigations of the PA 6 high speed fiber spinning process in the velocity range from 3000 until 5450m/min by means of tensile force measurements in the spinning line below the fiber solidification point. The measurements were evaluated under three different goals as follows:
Quantitative determination and interpretation of relations between the technological and textile-physical fiber parameters spinning speed, throughput, and fiber fineness (in the range of 4.1 to 14.8 dtex for a single filament spun from a 9-holes die).
Comparison between the experimentally measured and the theoretically calculated tensile forces by means of the own fiber formation model developed in the last years. On this occasion a satisfactory concordance could be noticed between the experimental and theoretical results. In addition to this a good model parameter estimation could be proved in the force balance part of the differential equation system for the fiber formation.
Spectral analytical evaluations of the measured tensile force time functions by means of their autocorrelation functions. It could be demonstrated, that higher frequency tensile force disturbances could be caused both by the spinningpump and by unevennesses in the cross quench air conditions below the spinning die.
All results from the investigations above are discussed in relation to different technological process goals and their realization possibilities.
© 1999, Carl Hanser Verlag, Munich
Articles in the same Issue
- Editorial
- Fifth of a Series: Pioneer of Polymer Processing John Wesley Hyatt (1837–1920)
- Internal Mixer
- Modeling the Distributive Mixing in an Internal Batch Mixer
- Biomedical Engineering
- Processing of Biodegradable Polymer Composites as A Drug Delivery System in Vitro
- Fibers and Films
- Tensile Force Measurements in the PA 6 High Speed Fiber Spinning and their Utility
- Crosslinking Modification of UHMWPE Fibers by Ultra-violet Irradiation
- Effect of Wall Slip on Rheotens Mastercurves for Linear PE Melts
- Stability of a Blown Film Extrusion Process
- Molding
- Blank Design and Fiber Orientation Distribution During Compression Molding of GMT
- Injection Moulding of a Commercial β-Nucleated Polypropylene
- Weld Line Strength in PC/ABS Injection Moldings
- Computer Controlled Rotational Molding of a Hollow Femur for 3-D Photoelastic Analysis
- Residual Stresses and Birefringence in Injection Molding of Semicrystalline Polymer
- Residual Stresses and Birefringence in Injection Molding of Semicrystalline Polymer
- Generalized Predictive Observer-Controller For Injection Moulding
- Fiber Orientation in 3-D Injection Molded Features
Articles in the same Issue
- Editorial
- Fifth of a Series: Pioneer of Polymer Processing John Wesley Hyatt (1837–1920)
- Internal Mixer
- Modeling the Distributive Mixing in an Internal Batch Mixer
- Biomedical Engineering
- Processing of Biodegradable Polymer Composites as A Drug Delivery System in Vitro
- Fibers and Films
- Tensile Force Measurements in the PA 6 High Speed Fiber Spinning and their Utility
- Crosslinking Modification of UHMWPE Fibers by Ultra-violet Irradiation
- Effect of Wall Slip on Rheotens Mastercurves for Linear PE Melts
- Stability of a Blown Film Extrusion Process
- Molding
- Blank Design and Fiber Orientation Distribution During Compression Molding of GMT
- Injection Moulding of a Commercial β-Nucleated Polypropylene
- Weld Line Strength in PC/ABS Injection Moldings
- Computer Controlled Rotational Molding of a Hollow Femur for 3-D Photoelastic Analysis
- Residual Stresses and Birefringence in Injection Molding of Semicrystalline Polymer
- Residual Stresses and Birefringence in Injection Molding of Semicrystalline Polymer
- Generalized Predictive Observer-Controller For Injection Moulding
- Fiber Orientation in 3-D Injection Molded Features
