SU117639A1 - Method of testing oxidizing materials for long-term strength, creep or rupture at high temperatures - Google Patents

Description

Methods of testing materials at high temperature for long-term strength and creep are known, in which the test sample is placed inside a quartz or other tube and exposed to vacuum or an appropriate neutral or corrosive environment.

The peculiarity of the proposed method is that the test specimen is surrounded by a protective detachable sheath of easily oxidizing material, for example molybdenum or tungsten.

This feature ensures that oxidized samples are prevented from oxidizing when they are tested at high temperatures, which improves measurement accuracy.

FIG. 1 shows schematically an apparatus for carrying out the proposed method for long-term strength tests; in fig. 2 - the same, when testing for creep.

For testing oxidizing, for example, molybdenum samples, a long-lasting strength is provided for a device comprising upper and lower shanks 1 and 2, equipped with appropriate inserts 3. The inserts and shanks are provided with annular grooves 4. Molybdenum alloy inserts are made and protected with an appropriate safety coating. Molybdenum bushes 5 and 5 are installed at the junction points with inserts.

The sample 7 screwed into the inserts is enclosed in a detachable molybdenum or tungsten sheath 8, the inner opening of which is made in accordance with the sample shape. In order for the separable shell not to disintegrate, a tubular molybdenum shield 9 is freely put on it, which is screwed onto its external thread of the upper insert with its upper end. This connection is required so that when the specimen is lengthened, a slit will be closed, which will be formed between the end of the upper insert and the end of the detachable screens (these screens go down together with the lower end of the specimen).

№ 117639

After mounting the screens, all molybdenum parts are enclosed in a heat-resistant, gas-tight inner tube 10, then the outer protective tube is put on //.

Molybdenum powder is applied to the grooves 4 before installing the protective tubes, which protects the sample from the ingress of oxygen through the gaps between these tubes and rods.

The temperature is measured by a single platinum-platinum-thermocouple 12, which approaches the end of the sample through longitudinal drilling of the shank and inserts.

A device for testing oxidizing materials for creep according to the principle of operation is similar to the indicated device and is equipped with a strain gauge device for measuring deformation

sample.

An upper insert / 4 is screwed onto the upper head of the sample 13, which, like the upper rod 15, has axial drilling for the free passage of the quartz rod 16. The upper and lower inserts 14 and 17 are made of molybdenum alloy and protected with an appropriate coating. A detachable molybdenum sheath 18 is mounted on a sample screwed into the upper insert, which can move freely in a tubular molybdenum screen 19 screwed onto the upper insert. The thermostat is fixed to the lower end of the sample, which serves as a clamp for mounting quartz rods of the strain gauge and also as a thermostat for equalizing the temperature on the working part of the sample. In order to keep the thermostat securely mounted on the sample, its contour is shaped molybdenum nut 21, which is also a protective screen at the lower end of the sample. Protective screens are also sleeves 22 and 23. Before installing protective quartz tubes 24 and 25 in all annular grooves 26 molybdenum powder is wiped in.

In order to reliably protect the lower end of the sample from oxygen ingress to it, the lower quartz tube 25 is held by means of a spring 27, a plate 28 and a nut 29 in a state pressed to the thermostat.

Then the quartz rods 16 are installed in place, the entire device is inserted into the tubular electric furnace and fixed by means of detachable liners 30 to the clamps 31 of the testing machine. After the sample is heated and the preload is applied, strain gauge elements are installed to fix the deformation; the plate 32, the measuring head 33 and the microscope 34.

The temperature is measured using a thermocouple 35, which through the drilling of the lower rods and inserts enters the thickness of the sample head.

Subject invention

The method of testing oxidizing materials for long-term strength, creeping or rupture at high temperatures, characterized in that, in order to avoid oxidation of the sample, it is surrounded by a protective detachable sheath of easily oxidizing material, such as molybdenum or tungsten.

Committee for Inventions and Discoveries at the Council of Ministers of the USSR

Editor A.K. LeykinaGr. 172

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