SU950813A1 - Method for determining the position of zone of transition from liquid phase into solid phase in the production of polymeric material - Google Patents

Description

(54) METHOD FOR DETERMINING THE POSITION OF THE TRANSITION ZONE

PZ LIQUID PHASE IN SOLID PRP PROPZODVODVESTVE

POLYMER MATERIAL

one

The invention relates to the production of chemical fibers and films and can be used, in particular, to control the process of forming polypropylene films.

The known method of determining the position of the transition zone from the liquid to the solid phase during the production of a polymeric material by estimating changes in the optical properties of the product along its length 1.

This method does not provide the required accuracy when using it to control the formation of large-sized (compared to the thread) film materials, such as polyethylene or polypropylene film, 1 m wide or more (sausage and sausage casing, etc.).

The aim of the invention is to improve the accuracy of determination.

The goal is achieved by the fact that in the method of determining the position of the transition zone from the liquid phase to the solid one during the production of a polymeric material by assessing the change in the optical properties of the product along its length, the change in the optical properties of the product is estimated by the gradient of its transparency in the direction of product movement phase transition take the area corresponding to the maximum value of the gradient of transparency.

FIG. 1 shows a device for carrying out the method; pas figs. 2 is a graph of the gradient of change in material transparency from the die.

The film 1 is formed by forcing the liquid polymer 2 through the die plate 3. When polymer 2 moves in the flow of cooler 4, it cools down and forms film 1. The physicomechanical parameters of the formed film largely depend on the stability of the position of the phase transition zone. The migration of the position of the phase transition zone causes an unevenness in the properties of the film, in particular, in width and thickness. Position 5 marked the transparency sensor.

The method is implemented as follows.

The transparency or absorption coefficient of the newly formed film is measured in the direction of its movement, for which the sensor 5 is placed at a distance of 20-30 cm from the fi ters, and moving the sensor 5. Along the film from the die, during its movement, the measured values of transparency (coefficient of absorption) and distance from die. According to the data obtained, the graphical dependence of the transparency (absorption coefficient) on the distance to the die (Fig. 2), () is determined according to the dependence according to the dependence with the greatest gradient m, which is the phase transition zone.

The method can be technically implemented using commercially available devices. As a sensor for measuring transparency or absorption coefficient, for example, a domestic CC-4 spectrometer and Spronome.m manufactured by BFiP can be used.

The proposed method, in comparison with the known one, allows the operator to detect in time the change in the position of the phase transition zone and take measures to eliminate the causes causing its migration. This makes it possible to obtain more uniform but its properties of the films and ion strength no; i iiaeMoro from her harness.

Claims (1)

Invention Formula - a method for determining the position of the hi zone of income from the liquid phase to the solid when producing a polymer material, predominantly a film, by evaluating the change in the optical properties of the product according to its date: || And e, different heme, with the goal 11 () In terms of the accuracy of the determination, the change in the O: tichsky properties of the food product is estimated from the gradient of its transparency by the 1e1-: e movement of the product, while 5a:, () the phase transition takes on h, then r. corresponding to the maximum, npic1ik: g ) alie11ta changes transparentSources of information, |) g; | 1ntye at the same time s in the examination 1. Copyright s.1, ete, whose USSR, i 521517, cl. (1 01 33/36, 1973. R (ig.1 /