SU852877A1 - Method of synthetic pubber latex coagulation process control - Google Patents

Description

The coagulation apparatus 1 enters the latex of divinyl styrene rubber via line 2, which is discharged through line 3.

The serum seeping through the mesh of the ribbon casting machine returns to the coagulation apparatus 1 via line 4, and is removed from line 5 via the line 5. The latex consumption is measured by the sensing element 6 "regulated by regulator 7 with an impact on regulator S.

The latex concentration of the polymer is measured by analyzer 9 and enters the multiplier-separating device 10.

The temperature in the apparatus / -coagulation is measured by means of a sensor .11 and is regulated by a regulator 12 with an impact on the flow rate of the return serum through the regulator 14.

The flow rate of the return serum is measured by the sensing element 13 and is controlled by the regulator, 14 with an impact on the regulator 15. The concentration of the polymer particles in the return serum is determined using the analyzer 16. The concentration of the polymer particles in the serum can be measured using the analyzer 16 on the size of particles formed during latex coagulation. Since the sizes of the openings of the ribbon casting machine are constant, the formation of large particles in the process of coagulation / and l (fine particles, their concentration in the serum increases, on the contrary, the formation of large particles reduces their concentration in the serum.

Signals corresponding to the current values of the flow rate and latex concentration, respectively, from the sensing element 6. and the analyzer 9 are fed to the multiplier-dividing device 10.

The output signal of the multiplying-dividing device 10, proportional to the polymer latex and the input of the coagulation process, enters the “variable regulator / 2 temperature” chamber, and the corrector 12 adjuster 12 enters: the signal from the analyzer 16 proportional to the deviation value concentration and polymer particles in the return serum against a given value.

The output of the regulator 12 is fed to the Camera "setting of the regulator 14 to change the flow rate of the return serum, which changes the temperature in the coagulation apparatus.

Thus, using the described method, the temperature in the coagulation apparatus 1 is controlled with a correction by the difference between the measured and the specified values of the concentration of polymer particles in the return serum, which helps to maintain the size of the formed particles at a given level and thereby contribute to the stabilization of the quality of rubber and reduce polymer loss.

With an increase in the concentration of polymer particles in the serum (which indicates a decrease in the size of the polymer particles formed during coagulation), the correction sypnal to the regulator .12 decreases, and vice versa.

 According to the results of experimental verification of the described β-method, it has been established that polymer losses at the latex coagulation stage can be reduced from 0.07 to 0.06 hl, and also can improve the quality characteristics of rubber - (for example, tensile strength of rubber .240-251 kgcm ).

Claims (1)

1. Litvin O., B. Basics of rubber synthesis technology. M., “Himi, 1964, p. 393- 41: 0.