SU1583811A1 - Method of determining contact thermal resistances - Google Patents

Abstract

The invention relates to measurement technology, can be used in calorimetry. The purpose of the invention is to expand the scope and improve the accuracy of determining the thermal resistances of contact samples of the same material. The method is carried out by passing through contact and solid samples placed between heaters and a cooling device, equal in magnitude to the heat fluxes and measuring temperatures on the cooled end surfaces. The magnitude of the contact thermal resistance is determined by the ratio of the temperature difference on the cooled end surfaces of the contact and monolithic samples to the magnitude of the heat flow passed through them. 1 il.

Description

The invention relates to measuring equipment, instrument making and can be used in calorimetry.

The purpose of the invention is to expand the area of measurement and improve the accuracy of determining the contact thermal resistance of samples of the same material.

The drawing shows a device for carrying out the proposed method.

The device contains a heat insulating housing 1 in which electric heaters 2 and 3 are placed, a cooling device 4, an upper contact sample 5 representing a pair of cylinders in contact with the end surfaces, and a lower monolithic

sample 6. On the outer side, the heat insulating body is equipped with protective rings (compensation) 7 and 8. In addition, the measurement and control systems have differential thermocouples 9, magnetic starters 10, voltage regulators 11, thermal mode setpoint 12, electronic adjustable potentiometers 13 and self-recording electronic potentiometer 14.

The method is carried out as follows.

The contact 5 and monolithic 6 samples, made from the same material and having the same dimensions, are placed between electric heaters 2 and 3 and the cooling device 4. With the setting device 1 2 thermal conditions in electrical heating equipment

heaters x 2 and 3 create the same heat flux q, which is passed through pin 5 and monolithic 6 samples. If a difference in temperature occurs on the surfaces of electric heaters 2 and 3, the signal determined by differential thermocouple 9 is fed to the input of potentiometer 13, which affects the voltage regulator 11, which changes the power of the electric heater until the signal from the differential thermocouple disappears 9.

Compensation of heat losses by samples is carried out by protective rings 7 and 8, which are included in the work by analogy with electric heaters 2 and 3 and using a differential thermocouple 9, an electronic adjustable potentiometer 13 and a magnetic starter 10. Moreover, in the case of working with small samples, such as discs, the possibility of using which is provided by the proposed method, the heat losses from the end surfaces to the insulating body 1 will be negligible and the use of guard rings 7 and 8 together with the control system Rovani can be ex- cluded.

When the metering device is turned on in the cooling device 4, the refrigerant is continuously circulated with a constant temperature. The temperature on the heated end surfaces of samples 5 and 6 will be the same due to the analogy of automatic temperature equalization on the surfaces of electric heaters 2 and 3, and on the cooled end surfaces different due to the presence of contact thermal resistance R, K in the contact sample 5 on the way heat flow q. The temperature difference DTK in the contact zone of two contiguous

The ends of the cylinders in sample 5 are determined using a differential thermocouple 9 and an electronic self-treating potentiometer 14 based on the temperature difference on the cooled end surfaces of the monolithic 6 and the contact 5 samples. Calculation of contact

thermal resistance is derived by the formula

p TC

about

where q is the heat flux of electric heater 2 or 3, which is determined by the power consumed by electric heater 2 or 3, referred to the unit surface area of the heater, W / m 2.

Claims (1)

Invention Formula The method of determining the contact thermal resistances consists in the fact that a heat flux is passed through a cylindrical sample consisting of two contacting ends of the rods by heating one end surface of the contact sample and cooling its opposite end surface, characterized in that in order to expand the field of application and increase the accuracy for contact samples of the same material, at the same time heating and cooling the monolithic sample in the same mode Identical in shape and material contact the sample under study, and the value of contact thermal resistance determined yut.po relative temperature difference on the cooled surfaces of face and monolithic. contact samples to the value of the heat flux passed through them.