Measuring and testing – Vibration – By mechanical waves
Reexamination Certificate
2001-12-13
2004-01-06
Williams, Hezron (Department: 2856)
Measuring and testing
Vibration
By mechanical waves
C073S598000, C073S602000
Reexamination Certificate
active
06672164
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The invention pertains to a process for determining the polymer concentration in a spinning dope solution.
2. Description of Related Art
One area of technology that is a source and motivation for polymer research, particularly with respect to mechanical properties, is the fiber industry. The most widely used fiber-forming processes are melt spinning and solution spinning. In both processes, the polymer is extruded from the orifices of a spinneret. In melt spinning molten polymer is used, while in solution spinning a spinning dope solution is the source of the polymer.
There are many factors that influence the physical and mechanical properties of fibers. If a spinning dope solution is used for the production of fibers, then one of the key parameters that determines these properties is the polymer concentration in the solution. Fluctuations in this concentration should be prevented as much as possible in order to enable the production of fibers with a consistent linear density and consistent properties, such as tensile modulus, relaxation behavior, and fiber strength. Preventing fluctuations in the polymer concentration becomes even more important when a spinning dope solution with a high polymer concentration is used. In this case, a small increase in the concentration could initiate the formation of a non-homogeneous or highly viscous spinning dope solution, which is unsuitable for the production of fibers with consistent properties and often also results in very inconvenient process equipment problems during production of the fibers. Therefore, it is important to determine the concentration as rapidly and accurately as possible.
Several methods are known in the art for determining the polymer concentration in a solution, such as light scattering, density, conductivity, and refractive index measurement, and Infrared, Near Infrared, Raman, and UV spectroscopy. Most commonly, the polymer concentration in a spinning dope solution is determined by measuring the density of the solution. However, said measurement often is not accurate enough to bring fluctuations in the polymer concentration in a spinning dope solution to notice. Furthermore, devices for measuring the density of a spinning dope solution are difficult to clean. These disadvantages become even more important when the measurement is carried out in-line.
SUMMARY OF THE INVENTION
Accordingly, it is the primary object of the present invention to provide a method to determine the polymer concentration in a spinning dope solution rapidly and accurately. Furthermore, the device used for this determination preferably is easier to clean than other presently commercially available devices.
Surprisingly, a process has been found that allows fast and accurate determination of the polymer concentration in a spinning dope solution. The process is characterized in that the determination is carried out by measuring the propagation velocity of ultrasonic sound in the solution.
Fast and accurate determination of the polymer concentration in the spinning dope solution enables prevention of fluctuations in this concentration as much as possible. Therefore, this process is highly suitable for application in the production of fibers with consistent properties. An ultrasonic device used in the process according to the invention is easier to clean, install, and calibrate than other presently commercially available devices. Therefore, the ultrasonic device is also highly suitable for application in the in-line measuring of the propagation velocity of ultrasonic sound in a spinning dope solution in order to determine the polymer concentration in the solution. A method for determining the polymer concentration using ultrasonic sound has been described in R. S. Bear et al., “Ultrasonic pulse method with nonlinear calibration for quantitative monitoring of polymer blends over a wide temperature range,”
Analytical Chemistry
, Vol. 65, No. 9, 1169-73 (1993). However, it was not disclosed that this method can be used for determining the polymer concentration in a spinning dope solution. Furthermore, it was not disclosed that this method can be advantageously used for the production of fibers with consistent properties. And even more specifically, it was not disclosed that this method can be used for determining the polymer concentration in a spinning dope solution by the in-line measuring of the propagation velocity of ultrasonic sound in the solution.
DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS
The process according to the invention can be applied using a spinning dope solution that is prepared either batch-wise or continuously by dissolving or dispersing any polymer in any solvent or any solution. Furthermore, a spinning dope solution with any polymer concentration can be used. Therefore, the process can be applied in the production of any fiber. For the production of fibers with a high tensile modulus, where for example one of the aromatic polyamides, or more specifically, poly(p-phenylene terephthalamide), is used as the polymer, it is often required to use a spinning dope solution with a high polymer concentration in order to obtain the desired properties. Since the process is highly suitable for monitoring fluctuations, it can be applied advantageously in the production of said fibers.
A high polymer concentration means a concentration of at least 70%, preferably at least 80% of the concentration at which a non-homogeneous spinning dope solution is formed, or at which the solution becomes too viscous to be used in a spinning process. This high concentration generally is between 10 and 25% by weight. If poly(p-phenylene terephthalamide) is used as the polymer in a sulfuric acid (approx. 99.8% by weight) solution, then this high concentration is about 16 to 21% by weight. When the spin dope concentration is not kept constant such high polymer concentration spinning dope solutions first of all pose problems in the production of fibers with consistent properties, and also lead to very inconvenient problems with the process equipment during production of the fibers.
The determination of a polymer concentration according to the invention can be applied to spinning dope solutions and samples thereof, and can be carried out by measuring the propagation velocity of ultrasonic sound in the solution with an ultrasonic device comprising an emitter and a receiver for ultrasonic sound. The device generates ultrasonic sound waves at the emitter, measures the time it takes before such a wave from the emitter passing through the solution arrives at the receiver, and calculates the propagation velocity as the distance between the emitter and the receiver divided by this time. Ultrasonic sound with a frequency between 50 kHz and 100 MHz can be used. The polymer concentration in a spinning dope solution can be determined by comparing the propagation velocity of ultrasonic sound in this solution with reference propagation velocity values including graphs. These reference values have been measured in spinning dope solutions with known amounts of the polymer, by using the same solvent or solution for dispersing or dissolving the polymer as in the spinning dope solution where the concentration has to be determined.
The propagation velocity (v) of ultrasonic sound in general depends on the density (d) and the adiabatic compressibility (c) of the solution according to the following equation:
v
=
1
c
*
d
Consequently, if the density of the solution decreases, the propagation velocity of ultrasonic sound in the solution increases. The density is dependent, int. al., on the temperature, the pressure, and the polymer concentration in the solution. Therefore, the propagation velocity of ultrasonic sound in a spinning dope solution is not only dependent on the polymer concentration but also on the temperature and the pressure in this solution. Preferably, the ultrasonic device used for measuring the propagation velocity of ultrasonic sound comprises a temperature sensor in order to enable local adjustment of the tem
Busschers Hendrikus J. M.
Haanstra Willem G.
Lammers Hans
Oliff & Berridg,e PLC
Saint-Surin Jacques
Teijin Twaron B.V.
Williams Hezron
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