SU504964A1 - Method for measuring softening temperature of thermoplastic materials - Google Patents

Description

one

The invention relates to quality control methods for building materials and can be used in the oil refining industry and the building materials industry, for example, during the oxidation process in the production of petroleum bitumen.

The known method of controlling the quality of oil bitumens by determining the temperature of grinding by the method of ring and ball is that the ring with bitumen breakdown is placed on the suspension, the ball is placed on top, and the suspension itself is placed in a glass with water. A mercury thermometer is installed in the center of the suspension and the beaker is heated at a constant speed until the deforming bitumen touches the outer circle of the suspension. The temperature recorded on the thermometer when the lower circle of the node contacts the bitumen corresponds to the temperature of bitumen softening.

The disadvantages of the known method are: low measurement operability (determination of the softening temperature of one sample of bitumen is carried out within 1-1.5 hours), the practical impossibility of its use for automatic control due to the fact that it requires complicated laboratory mannnulations, insufficient accuracy of measurement due to the presence of a subjective factor (the laboratory technician records the temperature on the thermometer and the moment when the bitumen touches the lower circle of the suspension visually).

The aim of the invention is to increase the efficiency and automate the process of measuring the softening temperature of thermoplastic materials, in particular bitumen.

The purpose of the invention is achieved in that a stable thermal note sufficient to melt the material is supplied to a sample of a material with a given initial temperature, the heating time is recorded until the material slid out of the mold, and the temperature is determined by this time

spread gcheni.

The proposed method for measuring the softening temperature is carried out as follows. The sample of the tested bitumen is poured (at

using an automatic sampler or manually) in a metal cylinder and cooled in water to a predetermined constant temperature. After cooling, the walls of the cylinder are heated, the electric passes through them.

constant current. Depending on the quality (softening temperature) of the controlled bitumen, the softening of the wall layer will occur after different periods of time from the start of heating or at different

no teurneruru walls of the cylinder. The quality of the bitumen being measured is determined by the time interval from the moment the voltage is applied to the cylinder to the time the sample detected by the photosensor falls out of it, or the temperature of the wall of the cylinder at the time the sample falls out.

The proposed method allows to obtain information about the quality of the controlled bitumen approximately 6 times faster than with the existing method (10-12 minutes instead of 1-1.5 hours); to automate quality control both directly during the oxidation process in the production of petroleum bitumen, and at any stage of the consumption of bitumen in the production of construction materials; increase control accuracy.

The proposed method can be used in an automatic control system for the oxidation process in the production of petroleum bitumen, for automatic control.

the quality of the output of the plants for the oxidation of bitumen, as well as to control the quality of the bitumen directly during the production of solid construction materials.

Claims (1)

Invention Formula The method of measuring the softening temperature of thermoplastic materials, mainly bitumens, by supplying them with a heat flux sufficient to melt the material, characterized in that, in order to automate and increase the efficiency of measurements, the heat flux supplied To sample a material with a given initial temperature, it is kept stable and the heating time is recorded until the sample material is drawn out of the mold, from which the softening temperature is determined.