SU130214A1 - Method for determining the total emissivity of solids - Google Patents

Description

Methods are known for determining the total emissivity of solids by radiant heat exchange between a sample of a material under study and a heat receiver, made in the form of flat coaxially arranged surfaces; Instruments for carrying out the methods have a calorimeter with sensors included in the measurement circuit as a heat receiver. The known methods are complex in that they require temperature control of the sample.

The proposed method allows to simplify the measurement process and in one experiment gives a change in the radiation coefficient in the whole range of temperatures. This is achieved by creating a non-stationary radiant heat exchange between the sample and the calorimeter, in which the sample is cooled and the calorimeter is heated.

An apparatus for carrying out the method comprises, as a heat sink, a disk metal calorimeter, the support ring of which is fixed in a tube placed inside the support sleeve in the axial direction, to change the distance between the sample and the calorimeter. Temperature sensors installed inside the sample and the calorimeter are connected to two electronic self-powered potentiometers.

A device for implementing the method has the following construction. A sleeve is attached to the ring on the three rods, in which the tube moves with its calorimeter fixed at the front end. On one rod there is a curtain with a polished surface protecting the calorimeter in its initial position from radiant heating. A magnet is installed above the ring on the brackets, which drives the second flap made of heat-resistant material with low thermal conductivity. The sample with a hole drilled in the side surface, put on a pem thermocouple. The thermocouple is led through the porcelain straw to the instrument. The device is painted matt black.

No. 130214-2 Measurements are made as follows. The tube with the calorimeter is retracted to its original position and closed with the first curtain. The second curtain is retracted to avoid heating it. The sample is heated to 1800–1850 °, then tape mechanisms are turned on and, after 6–10 seconds of exposure, necessary to equalize the temperature over the sample, close the second and open the first curtain. The calorimeter is pushed for a certain distance to the second curtain and with the help of louvers it interrupts the luminous flux while simultaneously opening the second curtain.

The sample can be heated both in air and under vacuum, and, depending on the type of material, in a flame or induction manner.

Subject invention

The method of determining the total radiation coefficient of a solid body by radiant heat exchange between the sample of the material under study and the heat receiver, made, in the form of coaxially arranged flat disks, characterized in that, in order to simplify the measurements, the temperature of the sample and the heat sink are measured by the B cooling process the sample and the rate of change of these temperatures calculate the desired total radiation coefficient.