SU1749804A2 - Contact heater for testing thermophysical properties of nonmetallic materials - Google Patents

Abstract

The invention: in the heating elements of the device there are cylindrical cavities into which a liquid cooler is supplied through a system of tubes. Each cavity can be filled with a refrigerant independently of other cavities, which allows the creation of gradient thermal fields in the test samples. 1 il.

Description

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The invention relates to the field of thermal analysis and thermophysical studies, in particular to the determination of the thermophysical properties of materials with monotonous and step heating, and is an improvement of the device according to the author. No. 1679332.

Closest to the invention is a heating device for determining the thermophysical properties of non-metallic materials, comprising a heat insulating body, temperature meters, two heat-conducting rods installed with translational displacement along a common axis, heaters and security sleeves for each of the heat-conducting rods.

The disadvantages of this device are the limitation of the range of positive measurement temperatures, the inability to measure when negative

temperatures and at high cooling rates, and relatively low productivity.

The purpose of the invention is to expand the range of temperature measurements and improve the performance of the device.

This goal is achieved by the fact that the device additionally contains cooler supply tubes, and each of the heat-conducting cylindrical rods is made with a cavity for the cooler, the cavities having a cylindrical shape, arranged coaxially with the rods and separated from one another.

The drawing shows a diagram of a contact heating device for determining the thermophysical properties of non-metallic materials.

The device contains the upper movable rod 1 of the heater, electrospiral 2 of the upper heater, quartz

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chop 3 upper heater, security ring sleeve 4 upper heater, insulation 5 of the upper heater, another fixed rod b, security ring sleeve 7 of the lower heater, thermal insulation 8 lower heater, electro-coil 9 lower heater, bottom 10 of the lower fixed rod, filled coolant , a quartz tube 11 of the lower heater, a coolant supply tube 12 into the fixed lower rod, an air drain tube 13 when filling the cavity of the lower Rod, an inert gas supply tube 14, channels 15 l pa The thermocouples are displaced, the coolant supply tube 16 to the movable upper rod and the cavity 17 of the upper movable rod filled with refrigerant.

Contact heating device operates as follows.

The movable upper rod 1 of the heater of the device is lifted, and a sample prepared in a suitable manner for testing is placed in the gap between the upper rod and the lower rod 6. Then the rod 1 is lowered onto the sample surface, electrical heaters of heaters are turned on, and tests are carried out according to the standard dynamic test method for monotonic and stepwise heating of the samples.

A contact heating device allows non-metallic materials to be tested in a wide range of positive and negative temperatures.

At negative temperatures, the tests begin with cooling with liquid nitrogen to a temperature of -150 ° C of the metal rods of the heater. For this liquid

nitrogen is poured into tubes 12 and 16. The control of the complete filling of the cavity 10 of the lower heating rod b causes the appearance of liquid nitrogen in the drainage

pipe 13. When the metal rods reach a temperature of -150 ° F, the potting is stopped and the heating of electric coils 2 and 9 rods is turned on. Studies from room temperatures begin without pre-test cooling of the rods by turning on the heaters.

Heat protection of heat leaks from the side surfaces of the sample is carried out using rods 1 and 6 s attached to the ends.

workers storbn security ring bushings 4 and 7, made of a more heat-conducting material (for example, copper, covered with a layer of nickel or chromium to protect against corrosion), firmly soldered to the rods with hard solder. Since the security

the annular bushings with their end surfaces face directly to the electrospirals, the heat from the heater comes to them both directly from the spirals and from the rods of the heaters.

Claims (1)

Claims of the invention Contact heating device for determining the thermophysical properties of non-metallic materials according to ed. St. No 1679332, characterized in that, in order to improve the performance of the device and extend the measurement temperature range, it additionally contains cooler supply tubes, and each of the heat-conducting cylindrical rods is made with a refrigerant cavity, the cavities having a cylindrical shape, arranged coaxially with the rods and separated one on another sixteen 1749804