SU565238A1 - Dilatometer - Google Patents

Description

(54) DILATOMETER

one

The invention relates to instruments for thermal physical testing and is intended to measure the temperature expansion coefficient of solids.

A dilatomer containing a heater, clamps for the test sample and a photovoltaic system for recording 1 are known. However, such a dilatometer cannot measure samples of various shapes and sizes.

The closest technical solution to the present invention is a dilatometer containing a heating chamber, in which the stirring is a prism, equipped with a thermocompressor, a sample is placed on the prism, to which both ends are tightly pressed with mirrors, and the optical system is made in two pairs tubes with .infrared and interference filters 2.

The disadvantages of such a dilatometer are that the samples have limitations in shape and size, the temperature expansion coefficient is measured only in one direction, there is no possibility to measure on samples made in geometrical similarity to each other, the design of the dilatometer is rather complicated for practical implementation.

The purpose of the invention is to measure the temperature coefficient of linear expansion of samples of arbitrary shapes and sizes.

This is achieved by the fact that in the proposed dilatometer, on the base, movable supports with levers located on them are installed, which are installed in a stable equilibrium position relative to their axes of rolling on movable supports.

The drawing shows the proposed dilatometer.

The lever 1 with a mirror 2, a support 3 and a co-tact 4 elements is located on the sub-suspension support 5 in the position of stable equilibrium. The support 5 is fixed on the base 6 in the desired position relative to the sample. All parts of the device are made of a material of suitable thermal resistance with

5 with a known low coefficient of tereratral expansion.

Sample 7 can be placed either directly on the base, or in a prism 8. In addition, it is impossible to use two levers,

0 as shown in the drawing, or one, but in this case the sample abuts against a fixed support, for example, a projection of the base.

To prepare the dilatometer for operation in 5 prism 8 or directly on the base 6, place sample 7, then install movable supports 5 with levers 1 placed on the bases. Supports 5 together with the levers are moved in the direction of the sample until elements 4 of the levers 1 Do not touch the specimen and the mirror 2 does not believe at a certain angle. In this case, a moment of the force of the force of the lever arm relative to its swing axis arises, which ensures the constant force closure of the kinematic measuring circuit.

The temperature coefficient of linear expansion is measured as follows.

When the sample size changes after temperature changes, the levers in the cube with the mirrors turn to the corners corresponding to the size change. Using known methods, for example, using a telescope and a scale, or using a laser and gauges, the angle of rotation of the mirror and the corresponding movement of the sample face are measured. From these data and known temperature variations, the linear spreading coefficient is found.

The effectiveness of the proposed device lies in its versatility, which allows one to measure the linear expansion coefficients of samples of various shapes and sizes with the same accuracy, for example, to make measurements on samples that are geometrically similar to each other, which is necessary when studying the scale effect.

Claims (2)

1. The author's certificate number 309288, cl. G 01N 25/16, 10.21.1969. 2. Author's certificate number 320762, cl. G 01N 25/16, 05/18/1970.