SU1711028A2 - Device for investigating bulk creep of materials under uniform compression - Google Patents

Abstract

The invention relates to a testing technique and can be used to study the bulk creep of materials under conditions of comprehensive compression. The purpose of the invention is to improve accuracy by eliminating the effect of sample size. Inside the fluid-filled vessel 1, two fluid-filled, closed chambers are mounted: a working chamber 3 in which sample 4 is placed, and an additional chamber 5 with a volume adjustment unit 6. Using the latter, equal levels of liquid in capillaries 7 and 8 are established. Sample 4 is loaded by applying pressure from one source to chambers 3 and 5 through capillaries 7 and 8. By changing the levels of liquid in capillaries 2, 7 and 8 t about volumetric creep of sample 4.1 Il.

Description

The invention relates to tests of materials, can be used to study the volumetric creep of materials under comprehensive compression and is an improvement of the known device according to auth. No. 1603226.

A device for studying the volumetric creep of materials under comprehensive compression, containing a vessel filled with liquid, a capillary tube in communication with the vessel, two closed chambers: a working one, designed to accommodate the sample, and an additional one filled with liquid, and the volumes of working liquids in the chambers are equal, and the chambers are connected by tubes to one pressure source [1].

A disadvantage of the known device is the low accuracy of the tests in the study of bulk creep of materials under comprehensive compression, since inaccuracy in the manufacture of the sample appears measurement error.

The purpose of the invention is to increase the accuracy of tests, leading to an increase in the reliability of research, by eliminating the influence of non-compliance with the geometric dimensions of the sample.

This goal is achieved by the fact that the known device is equipped with a volume control unit installed in a working or additional chamber ..

The drawing shows the proposed device.

The device is a closed liquid-filled vessel 1 with a capillary tube 2 connected to it, two closed chambers filled with liquid are placed inside: a working chamber 3, in which a sample 4 is placed, and an additional 5. A volume control unit 6 is placed in one of them, and each of These chambers are equipped with their capillary tubes 7 and 8.

A device for studying bulk creep works as follows.

A sample 4 of the test material is placed inside the working chamber 3. Fill the working 3 and additional 5 chambers with working fluid, leveling their volumes using the volume control unit located in one of these chambers. The filled chambers are placed inside the vessel 1, which is also filled with a working fluid. The sample 4 is loaded by comprehensive compression by applying pressure P to the closed chambers 3 and 5 through capillary tubes 7 and 8 from one pressure source. Under the influence of pressure P, the volume of sample 4, the volumes of the working 3 and additional 5 chambers, and the volumes of the working fluid in these chambers change and, as a result, the fluid levels in the capillary tubes 2, 7, and 8. The fluid level Δ11 in the capillary tube 7 is measured and calculate the change in volume of AVr.

ΔVi = Δ I; ’Η——, where di is the inner diameter of the capillary tube 7.

At the same time, the change in the liquid levels Δ 1g and Δ 1z in capillary tubes 2 and 8 is measured and the change in the volumes of LUgiAUz is calculated.

Volumetric creep is calculated by the difference in changes in volumes Δνι, AUG, Δν ₃ :

Δν = Δνι - АУг-АУз.

Given the amount of volume of the sample 4, which is adjusted when refueling node 6 volume control, get the specified volumetric creep of this material.

The use of the proposed device can improve the reliability of research by creep of materials, including low-modulus, which are not amenable to turning, under conditions of comprehensive compression by eliminating the influence of non-compliance with the geometric dimensions of the sample on the test results.

Claims (1)

Claim A device for studying the volumetric creep of materials under comprehensive compression No. 1603236, characterized in that, in order to improve accuracy, it is equipped with a volume control unit installed in a working or additional chamber.