SU1260797A1 - Method for measuring coefficient of thermal expansion - Google Patents

Abstract

The method relates to methods for measuring thermal expansion and can be used in studies of non-rigid materials and products. The purpose of the present invention is to improve the accuracy when testing amorphous metal tapes and fibers, which is achieved by eliminating the effect on the measuring system that crushes the sample. Fixing a non-rigid sample between plane-parallel quartz substrates and spring-spreading of the substrates allows testing with the use of mechanical dilatometers. 1 il. b s / s

Description

The invention relates to thermal tests, namely to the study of thermal expansion, and can be used in the study of non-rigid materials and products.

The purpose of the invention is to improve accuracy.

The drawing shows a dilatometer with a test sample placed in it. The pusher rod 1 is associated with a displacement indicator 2 and is displaceably aligned coaxially with a quartz holding tube 3. The quartz substrates 4 are held apart by a spring 5. A test sample 6 is fixed between the substrates 4.

Measurement of the CTE of an amorphous Fe CUoMoaP metal tape is carried out.

The total state of the crystalline destructive force for the tested sample is 134–200 g / mm.

Accuracy increase is achieved by eliminating the influence of the measuring device elements crushing effect on the test result. The thermal expansion of quartz substrates is insignificant and its effect can be taken into account, based on the known properties of quartz.

Claims (1)

Invention Formula A method for measuring the thermal expansion coefficient of samples, in that the extended sample is clamped ten BS 50 mm long. In the process of heating 5 between the ends of a coaxial tube-holder, a sample of an amorphous ribbon changes its talon and pusher rod, changes the temperature linear dimensions. In proportion to this of the sample, and the desired value is judged by the movement of the pusher rod relative to the tube holder, characterized in that, in order to improve the accuracy when testing amorphous metal tapes and fibers, before clamping the sample is fixed the degree of compression of the spring varies. These changes are captured by a quartz push rod and transmitted to the indicator. Measurements are carried out in the temperature range of 20-400 ° C. The spring is made of spring steel. Its initial tension is chosen taking into account the fact that at the softening temperature (in the temperature range preceding the transition from the amorphous plane-parallel quartz substrates, the substrates are pushed apart by a spring preserving elasticity in the temperature range of testing. The total state of the crystalline destructive force for the tested sample is 134–200 g / mm. Accuracy increase is achieved by eliminating the influence of the measuring device elements crushing effect on the test result. The thermal expansion of quartz substrates is insignificant and its effect can be taken into account, based on the known properties of quartz. Invention Formula A method for measuring the thermal expansion coefficient of samples, in that the extended sample is clamped  between the ends of the coaxial tube holder and the pusher rod, change the temperature between plane-parallel quartz substrates and the substrates are supported by a spring that retains elasticity in the temperature range of the test.