DD257561A3 - EQUIPMENT FOR TIME STATE TESTS - Google Patents

Abstract

The invention relates to a device for creep tests on material samples for determining the remaining life zeitstandbeanspruchter components, especially of heat engines, with a steam or water flow through the control line analogous to the main guaranteed and thus safe transmission of the operating temperature on the material samples gewaehrleistet, at the same time the material samples easy and quickly accessible at any time. For this purpose, a cylinder-shaped device is designed as a control line, one side of which is closed by a closure bottom and the other by a blind flange which can be loosened easily and quickly. On the periphery of the device inlet and outlet nozzles are integrated with small nominal size and double valves. By way of this, the device is supplied with the corresponding test medium from one of these leading lines and derived in a second line with low pressure, but similar Temperaturverhaeltnissen. The device is isolated including the blind flange and can be equipped with venting, drainage and display. After shutting off the inlets and outlets and opening the blind flange, the material samples are accessible. figure

Description

Field of application of the invention

The invention relates to a device for creep tests on material samples for determining the remaining life of zeitstandbeanspruchter components such as pipelines, collectors and housings in particular of thermal power plants.

Characteristic of the known technical solutions

As is known, components are exposed to operating conditions, especially in thermal power plants, in which, in addition to the influences of the stress level, the temperature exerts a significant influence on the loading time. Therefore, to characterize this so-called creep behavior, creep rupture tests are carried out to determine the performance behavior of the materials under static tensile stress. The creep rupture strength determined from the tests at a certain temperature is the static load related to the initial cross-section of the sample at room temperature, which causes a break of the sample after a certain experimental time has elapsed.

Creep values obtained from materials that have not yet been exposed to operating stresses are used in the design and construction of components.

On the other hand, creep rupture values, which are determined from materials that are used for operation, are the starting point for the determination of the residual service life of components subject to wear and tear. It is known to carry out tests for determining the remaining service life of such components in material testing laboratories. In such laboratories, however, the real operating conditions, in particular the operating temperature, despite insufficient material-technical expenses can be replicated only inadequately. The results thus obtained are therefore not very satisfactory.

For this reason, it has already been proposed to incorporate sample holding devices with the material samples to be examined directly into the respective steam and / or water system, in order to allow a direct consideration of the influence of the operating temperature on the time-stressed materials. For this purpose, in DD-PS 126112 the sample carriers are arranged in a provided with venting and drainage lockable, flanged to a line of the water and / or steam system of a power plant pipeline, the pipeline can also be switched as a bypass. With the DD-PS 157279 a sample receptacle has been proposed, which is connected to a portion of the component to be examined with vernachiässigbar small pipe cross-section parallel and replaceable by means of connecting flanges and shut-off valves.

All these known devices have the common disadvantage that the stored specimens are accessible only after disassembly of the entire control track. However, this work is time-consuming and cumbersome and requires a high assembly cost. Furthermore, the parallel or bypass circuit requires a relatively large connection diameter, in order to ensure a steam flow at the same reaction rate analogous to the main flow and thus a corresponding. · Temperature simulation. However, this results in a significant cost of materials. Moreover, at low vapor velocities, the analogous flow through the main line - parallel line due to smaller diameters at the same pressure ratios is not necessarily given.

Object of the invention

The aim of the invention is a device for creep tests on material samples to determine the residual life zeitstandbeanspruchter components, especially of thermal power plants, with a steam flow through the control line analogous to the main guaranteed and thus safe transmission of the operating temperature is ensured on the material samples, at the same time the material samples at any time easy and should be quickly accessible. This immediate consideration of the operating temperature throughout the course of the experiment, the remaining life of parts of the system can be effectively utilized.

Explanation of the essence of the invention

The invention has for its object to provide a device for creep tests on material samples, with which the above-detailed disadvantages of the known technical solutions, but in particular the difficult accessibility to the material samples and the insufficient replica of the operating temperature in the control track are overcome.

According to the invention, the object is achieved with a control section designed as a preferably cylindrical device which is closed at one end with a bottom and at the other end has a blind flange for the purpose of storage or removal of the test specimen. Furthermore, on the periphery of the device near the ground on the one hand and in Blindflanschnähe on the other hand inlet and outlet nozzles are involved, which advantageously have a small nominal diameter and each have Doppelabsperrarmaturen. According to the invention, the steam or water is fed from a line carrying the operating medium of the permanently installed at a readily accessible location in the vicinity of the sampling point or in the vicinity of analogous test conditions device and discharged from this to a second steam or water pipe whose medium pressure smaller than that of the test medium, but the temperature should be expediently the same. The control section is insulated and an insulating cap is placed over the blind flange. If required, the control section can be provided with display or writing measuring instruments as well as with drainage systems. The size of the cylindrical device is determined by the size of the male test specimen. After actuation of the shut-off valves, the test specimens are always easily and quickly accessible via the blind flange.

embodiment

The invention will be explained in more detail below using an exemplary embodiment. The accompanying drawing shows the basic structure of the device according to the invention and their integration in the test medium leading line.

Trained as a control line device 1 for receiving the material samples has a cylindrical shape and is equipped in its interior with known sample holder devices. The device is closed on one side with a bottom 2 and on the other side with a simple and rapidly detachable blind flange 3. The size of the device is determined by the size of the material samples to be recorded.

From the test medium leading line 4, the steam is supplied via a connection line 5 with Doppelabsperrarmaturen 6 of the device via a arranged on the circumference nozzle and derived on the other side thereof via a corresponding nozzle and a drain 7 with Doppelabsperrarmaturen to a steam line 8. In this rule, a smaller pressure, but the approximately the same temperature as in the line 4. This ensures a continuous vapor flow with safe transmission of the operating temperature on the material samples. The device is insulated including the blind flange.

Optionally, vent 9, drainage 10 and display 11 can be arranged on the device.

After shutting off the inlets and outlets, the material samples are accessible at any time after opening the blind flange.

Claims (1)

Means for creep tests on material samples for determining the residual life of zeitstandbeanspruchter components, such as pipelines, collectors and housings, especially of thermal power plants, which is designed as a control path and preferably has the shape of a cylinder whose size is determined by the size of the male specimens, and the one side is closed with a simple and rapidly detachable blind flange and at its periphery in Blindflanschnähe a Zuflußstutzen small nominal diameter, through which the test medium is supplied, characterized in that in the vicinity of the closure bottom (2) of the device arranged a discharge nozzle (7) is having a pipe connection to a line (8) with a smaller medium pressure but approximately the same temperature as in the test medium leading line (4). For this 1 page drawing