RU2457460C2 - Automated device to cool samples in process of long-term fatigue testing of welded samples at low temperatures - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: automated device to cool samples in process of long-term fatigue testing of welded samples at low temperatures includes a chamber, a power block for loading of a tested sample installed inside a chamber body, a source of cooling medium with a facility to supply the latter into the chamber and a system of temperature monitoring in the chamber, the chamber body is divided into two compartments with a partition having gaps in the upper and lower parts of the chamber, in one of which there is a source of cooling medium - a coolant in the form of solid carbon dioxide, and the other one is designed to place a tested sample, at the same time the power block for loading of a tested sample is arranged in the form of a mechanism developing a stretching cyclic force at a sample. The facility of cooling medium supply in the form of cold air from a compartment with a coolant into a compartment with a tested sample is arranged in the form of a forced air supercharger arranged in a compartment with a coolant, and the temperature monitoring system in the chamber compartment with a sample represents temperature sensors placed in the specified compartment and connected with an external control computer, installed in the device.

EFFECT: invention provides for performance of fatigue testing of welded samples during their cyclic stretching under conditions that are maximum close to conditions on location, by means of deep cooling of tested samples in an air medium.

4 cl, 1 dwg

Description

The invention relates to the field of shipbuilding (structural strength of ship hulls) and relates to issues of ensuring and increasing the operational life of Arctic navigation vessels, welded structures of which are under the influence of cyclic loads and low temperatures.

When designing these structures, knowledge of the characteristics of fatigue strength at low temperatures (up to -50 ° C) is necessary, for which fatigue testing of welded joints and structural units at low temperatures is necessary. At the same time, tests should be carried out in air, since structures operating at temperatures ranging from -40 ° C and below are obviously located outside water, the temperature of which cannot be lower than 0 ° C.

A device for temperature testing is known (patent for utility model - RU 90902 U1, 02/09/2009), comprising a housing in which a heat chamber with heating elements, a container with a cooling medium, and test products on a special suspension are placed. This device allows you to expose the tested products to high temperatures and cooling. The movement of products from the heat chamber to the cooling liquid medium is controlled from the control panel located outside the device. In this device, the application of mechanical forces to the sample is not provided.

A well-known installation for fatigue tests at controlled temperature and humidity (patent FR 2738063 (A1), 02.28.1997), adopted as a prototype, consisting of sealed chambers, in each of which is placed a loading device for bending tests of prototypes, and which are supplied with a fluid flow of a given temperature.

A disadvantage of the known device is the cooling of the sample in a liquid medium, which does not allow testing welded samples in a cooled air at low temperatures, without exposure to liquid, that is, in conditions close to the natural conditions of Arctic navigation of ships.

In addition, this device does not allow the application to the sample of tensile cyclic load, so necessary to obtain the fatigue characteristics under tensile conditions, characteristic of most high-voltage ship structures.

The objective of the invention is the provision of fatigue testing of welded samples during cyclic tension under conditions as close as possible to full-scale, by deep cooling the test samples in air.

This is achieved by the fact that the automated device for cooling samples during long-term fatigue tests of welded samples at low temperatures, including a chamber, a power unit for loading the test sample placed inside the chamber body, a cooling medium source with a means of supplying the latter to the chamber and a control system temperature in the chamber, according to the invention, the chamber body is divided into two compartments by a partition having gaps in the upper and lower parts of the chamber, in one of which a source The nickname of the cooling medium is a refrigerant in the form of solid carbon dioxide, and the other is designed to accommodate the test sample. In this case, the power unit for loading the test sample is made in the form of a mechanism that creates a tensile cyclic force on the sample. The means for supplying a cooling medium in the form of cold air from the compartment with the refrigerant to the compartment with the test sample is made in the form of a forced air blower located in the compartment with the refrigerant, and the temperature control system in the compartment of the chamber with the sample is temperature sensors located in the compartment associated with external control computer that the device is equipped with.

At the same time, a testing machine with a pulsator of the MUP-50 type was used as a power block for loading the test sample.

In addition, an air fan was used as a forced blower of cold air from a compartment with solid carbon dioxide to cool the test sample.

Along with this, the camera body is made with thermal insulation.

The adoption of a coolant in the form of solid carbon dioxide as the source of the cooling medium ensures the maintenance of a low temperature for a long time when testing welded samples in a chilled air environment.

Implementation of a temperature control system in the compartment of the chamber with the test sample in the form of temperature sensors connected to an external control computer ensures that the test temperature is maintained within predetermined limits and the current temperature is monitored.

The invention is illustrated in the figure, which schematically shows the proposed device.

An automated device for cooling samples during long-term fatigue tests of welded samples at low air temperatures includes a chamber 1, the body of which is insulated and divided into two compartments 2, 3 by a partition 4 installed with gaps 5, 6 in the upper and lower parts of the chamber, respectively . The device has a power unit 7 for cyclic loading of the test sample 8 located inside the compartment 2 of the chamber 1. In the compartment 3 of the chamber there is a source of cooling medium - a refrigerant in the form of solid carbon dioxide 9 and a means of forcing 10 into the chamber 2 of the air cooled in the chamber 3, which made in the form of an air fan. The power unit 7 for loading the test sample 8 with tensile cyclic force is made in the form of a mechanism, which can be used as a testing machine with a pulsator type brand MUP-50. The device is equipped with a temperature control system in compartment 2 of the chamber with sample 8, which is temperature sensors 11 located in said compartment 2 and connected to an external control computer 12, to which an air fan 10 is also connected.

The functioning of the proposed automated device for cooling samples during long-term fatigue tests of welded samples at low air temperatures is as follows.

Before mounting the device, the test sample 8 is installed in the grips 13, 14 of the testing machine 7 and operations related to centering the sample 8 and preparing the measurement system (not shown) are installed on the sample.

The device with the side wall removed (not shown in the figure) of the working test compartment 2 is mounted on the stationary grip 14 of the testing machine so that the sample 8 passes through the slots 15 in the upper and 16 in the lower walls of the housing.

The wires of the measurement system installed on the sample (not shown in the figure) are led out through terminal 17 in the housing wall. The state of the temperature control system is monitored.

In the cooling compartment 3 is placed the refrigerant 9 in the form of solid carbon dioxide with a temperature of about -70 ° C. The fan 10 is turned on and the air circulation between the compartments 2 and 3 of the chamber 1 is checked.

All camera compartments are closed with covers (not shown in the figure), and cooling is turned on (fan 10). The temperature control system sets the upper and lower deviations from the nominal test temperature.

After reaching the nominal value of the set temperature, the test machine is switched on in accordance with the implemented test program.

During the tests, the control computer 12 ensures that the temperature is maintained within the specified range by periodically turning the fan 10 on and off. The working supply of the refrigerant 9 is selected in such a way as to ensure continuous operation during the work shift or during the duration of the shorter tests.

The proposed automated device for cooling samples during long-term fatigue tests of welded samples at low temperatures makes it possible to carry out fatigue tests of welded samples during cyclic tension under conditions as close to full-scale as possible by deep cooling the test samples in air, which compares favorably with prototype.

Claims (4)

1. An automated device for cooling samples during long-term fatigue tests of welded samples at low temperatures, including a chamber, a power unit for loading the test sample placed inside the chamber body, a cooling medium source with a means of supplying the latter to the chamber and a temperature control system in the chamber, characterized in that the camera body is divided into two compartments by a partition having gaps in the upper and lower parts of the camera, in one of which a source of cooling medium is located s is a refrigerant in the form of solid carbon dioxide, and the other is designed to accommodate the test sample, while the power unit for loading the test sample is made in the form of a mechanism that creates a tensile cyclic force on the sample, and the means of supplying the cooling medium in the form of cold air from the compartment with the refrigerant in the compartment with the test sample is made in the form of a forced air blower located in the compartment with the refrigerant, and the temperature control system in the compartment of the chamber with the sample is placed temperature sensors in the said compartment connected with the external control computer with which the device is equipped. 2. The automated device according to claim 1, characterized in that a testing machine with a pulsator of the type MUP-50 is used as the power unit for loading the test sample. 3. The automated device according to claim 1, characterized in that an air fan is used to cool the test sample as a forced blower of cold air from the compartment with solid carbon dioxide. 4. The automated device according to claim 1, characterized in that the camera body is made with thermal insulation.