SU1675734A1 - Method of strength testing of tubular specimens under internal pressure and heating - Google Patents

Abstract

The invention relates to a testing technique and can be used to study the strength properties of tubular specimen materials during their heating. The purpose of the invention is to improve the accuracy by taking into account the efforts in the unloaded sample material and the forces arising from heating. The initial forces PI in sample 6 are recorded in the zone and outside the placement area of the power element (EF) 5. By moving the movable rod 1, the FE 5 is pulled up before it changes from a plastic to an elastic state and then is heated, registering the RE force outside the placement zone The SC 5 and the total force P0 in the zone where the SC 5 is located at the moment of rupture of the sample 6, and the force P of the sample 6 rupture in the zone where the SC 5 is located is determined from the ratio (Pi + P2). 2 Il.

Description

FIG. one

The invention relates to a testing technique and can be used to study the strength properties of tubular specimen materials during their heating.

The aim of the invention is to improve the accuracy by taking into account the forces in the unloaded sample material and the forces generated during heating.

Figure 1 shows a diagram of a device for implementing the proposed method; in fig. 2 - the same, top view and optical. The scheme of recording forces in the zones of the transparent sample.

A device for implementing the method includes a movable rod 1 with an annular thrust 2, a gland element 3, a housing 4, a power element 5 placed in the cavity of a tubular sample 6, and a fixed rod 7. The optical force recording circuit contains a source of light 8, optical elements cops 9 and 10, a recording device 11.

 The method of testing tubular specimens with internal pressure during heating is carried out as follows.

In case 4, a transparent tubular specimen b is mounted on a fixed rod 7, in the cavity of which a plastic force element 5 is placed. And a movable rod 1. Device And register initial forces in the area of the power element (at point B) and outside the area of the power element (in points A). Then, the force element 5 is preloaded due to the force transmitted to the rod I from the gland element 3, which occurs when the latter moves, along the threads in the housing 4. The preload is produced before the force element 5 transitions from plastic to elastic and then heats outside the area of the power element 5 (points A on sample 6), arising from the thermal expansion of the sample material, and the total force in the area of the power element E (point B of sample 6).

The force P of rupture of the sample in the area of the power element is determined by the dependence

(P1 + P2),

where Ro is the total force in the area of the power element placement after it is pressed and heated at the moment of sample rupture;

Pi is the initial force in the sample material in the zone and outside the zone (almost equal) of the positioning of the force element before pressing;

P2 is the force outside the location of the power element that occurs in the sample during thermal expansion at the moment of rupture.

The compression and subsequent heating of the sample provide a uniform internal pressure in the cavity of the sample b in the zone of action of the power element 5.

In this way, the true load acting on the specimen is determined, by which the strength of the material is judged.

Claims (1)

The Invention Method for testing tubular samples with internal pressure during heating by placing a plastic force element in the sample cavity, pressing the latter before the transition from the plastic to elastic state, heating it together with the sample and registering the total force P0 in the area of the power element at the moment of rupture, different By the fact that, in order to increase the accuracy, the initial forces Pi in the sample in the zone and outside the area of the power element are recorded before heating and pressing, the force P2 in about aztsov at break out zone accommodating the actuator, and P sample breaking force determined depending on Р Р0- {Р1-Ф2).