SU712744A1 - Ice deformation measuring coefficients of cubical contraction and temperature expansion of liquid - Google Patents

Description

target bar. Material n the length of the rod is selected in such a way that the ratio

  “;

where / is the length of the rod;

L is the length of the quartz rod; ai, is the coefficient of linear ten-fold expansion of quartz;

a.1 is the coefficient of linear ten-fold expansion of the stem material.

The drawing shows a device for measuring ice deformations.

The proposed device contains a quartz stem 1, one end of which is rigidly connected to pedestal 2 fastened to ice, a stack 3, which is also attached to the ice and end EN is rigidly connected to compensation rod 4. At the end of the compensation rod 4 a parametric transducer of free movement is fixed the end of the rod 5-.

The operation of the device is as follows. A quartz glass rod 1 is rigidly bonded with ice during the assembly of the pedestal 2. The second end of the rod shifts freely relative to the ice when the latter expands or contracts. Offsets of the free end of the rod relative to the ice are recorded using a parametric sensor 5 mounted on the temperature compensator 4, which in turn is embedded in a rack. With a change in ambient temperature, the linear dimensions of quartz glass 1 are measured, which is an error in measurement. At the same time, the room-fitting rod 4 is changing in the same direction, therefore the gap between the parametric sensor 5 and the free end of the quartz rod remains singed, and thus it is possible to eliminate the error caused by the own temperature fluctuations of the rod.

For example, the length of the quartz-rod L - 1000 cm; coefficient of linear temperature expansion of quartz aL 0.5 IQ-. The material of the compensator rod is aluminum. The coefficient of linear temperature expansion of aluminum, 5. Then stock length

1 - 19.6 (cm),

H

In this case, when the ambient temperature is changed, the length of the rod and the quartz bar will change so much that the gap will remain constant.

The introduction of temperature compensation in sucker-rod quartz deformers allows to significantly expand the scope of use of such devices and apply them both for measuring ice deformations and for studying soil deformations.

A model of the device for measuring ice deformations was tested on the ice cover of the Finek Bay and at the North Pole - 23 drifting polar station, where it performed equally well.

Claims (2)

1. USSR author's certificate number 469108, cl. G OIV 1/20, 1975. 2. Latynina L. A. Analysis of the operation of a rod deformograph, USSR Academy of Sciences, Institute of Physics of the Earth, No. 4218-72 dep, M., 1977 (prototype).