RU2735713C1 - Stand for static and cyclic tests of cruciform specimens - Google Patents

Abstract

FIELD: welding.

SUBSTANCE: invention relates to dynamic testing of articles for strength, namely, to stands for carrying out tests of cruciform specimens at their static and cyclic loading. Test bench for static and cyclic tests of cruciform specimens comprises a frame on which a biaxial loading device is mounted, containing located on mutually perpendicular axes, at angle of 90°, four grippers for installation of a cross-shaped sample, each of which is connected to the power unit to create a biaxial loading, each of which comprises a cyclic loading means and a statistical loading means on a cross-shaped sample, an ultrasonic flaw detector connected to at least two ultrasonic sensors, installed on both sides of cross-shaped sample, and test chamber for arrangement of cross-shaped sample, in which various operating conditions are simulated. Frame is made in the form of a square or a ring. Test chamber is a climatic chamber for testing at low temperatures or a corrosion chamber for testing in working media with different contents of corrosion-active components. Cyclic loading facility is made in the form of a hydropulsator. Statistical load means is made in the form of an electromechanical cylinder.

EFFECT: technical result of claimed invention is expansion of functional capabilities of used equipment by creating test bench, providing selection of optimum versions of sheet metal material, welding materials, welding technology at the stage of designing, repair and reconstruction of vertical tanks.

5 cl, 1 dwg

Description

The technical field to which the invention relates

The invention relates to the field of dynamic testing of products for strength, namely to stands for testing cruciform specimens under their static and cyclic loading.

State of the art

Known stand for low-cycle deformation-force tests of models of full-scale structures of vessels. The invention relates to the diagnosis of vessels operating under the action of static and low-cycle loads from internal overpressure and can be used to assess the strength of vessels during diagnosis, taking into account the actual parameters of the loading of their structural units and elements. The stand contains a body, a lower support, branch pipes, and a loading mechanism. The body is a reduced model of the investigated vessel with a choke assembly consisting of a pipe and a shell, and the loading mechanism is a pump connected to the fluid supply pipe through a piston hydraulic cylinder. The choke assembly is equipped with three strain gauges connected to strain gauges and installed one on the outer surface of the shell at a distance of 3-5 mm from the weld, the second on the inner surface of the pipe at the point of intersection of the forming inner surfaces of the shell and the pipe, and the third on the inner end of the pipe. Pressure gauges are installed on the casing and pump. The stand allows you to assess the loading of the structure and reduce the error in assessing the strength and resource of structures, the direct testing of which is difficult or impossible [RU No. 2497095C1, publ. 10/27/2013].

The disadvantage of the stand is the ability to give only a qualitative assessment of the strength and resource of vessels and apparatus, as well as the high complexity of work during testing. The stand does not allow to give a quantitative assessment of the state of blood vessels and apparatus using assessment criteria.

Also known is a testing machine for static testing of welded joints under tensile and compressive loads when testing samples with a thickness of 2 to 25 mm. The machine includes a base, a traverse with two nuts, hydraulic grips (upper and lower), two hydraulic cylinders, pistons with hydraulic cylinder rods, which are simultaneously the columns of the machine, a piston and rod cavity of hydraulic cylinders, a force sensor, a displacement sensor, a pumping unit, a control system and measurements [patent RU No. 99171 U1, publ. 10.11.2010)

The disadvantage of this machine is the impossibility of testing samples under cyclic loads, as well as the lack of a test chamber for testing at low temperatures and in working environments.

Also known is a stand for dynamic testing of products for fatigue strength under cyclic loads. The stand for dynamic testing of products for fatigue strength under cyclic loads contains a base, a drive motor located on it, a cyclic stretching mechanism in the form of the first and second shafts installed at an angle with flanges equipped with self-aligning fasteners for the tested products, and a device for adjusting tensile forces. The stand is additionally equipped with a control unit for adjusting the tensile forces and the frequency of rotation of the electric motor shaft, which is connected through an elastic coupling to the first shaft of the cyclic stretching mechanism, which is connected through the first rotation joint to the second shaft and through the second rotation joint to the support slider equipped with two roller bearings for its movement in a direction perpendicular to the axis of rotation of the electric motor shaft in the plane of the first and second shafts, and the device for adjusting the tensile forces is made in the form of a pneumatic cylinder, the movable rod of which is connected to the support slider, while the working chamber of the pneumatic cylinder is connected to the compressor receiver through an adjustable electromagnetic valve electrically connected to the control unit [RU patent No. 64370 U1, publ. 27.06.2007].

The disadvantage of this machine is the impossibility of testing cruciform specimens under static and cyclic loads.

The essence of the invention

The technical problem to be solved by the claimed invention lies in the creation of a universal test bench that allows testing the strength properties of materials made of steels by applying tensile cyclic and compressive static loads, more specifically, to the field of testing cruciform specimens from sheet metal and welded joints with a thickness of 7 to 32 mm for use in stationary laboratories for assessing the quality of materials in the construction, reconstruction and repair of steel vertical tanks for the storage of oil and oil products.

The technical result of the claimed invention is to expand the functionality of the equipment used by creating a test bench for static and cyclic tests of cruciform specimens, which provides the choice of optimal options for sheet metal material, welding consumables, welding technology at the stage of design, repair, reconstruction of vertical tanks.

The technical result is achieved by the fact that the stand for static and cyclic tests of cruciform specimens contains a frame on which a biaxial loading device is installed, containing four grips for mounting a cruciform specimen, four power units for creating a biaxial loading device located on mutually perpendicular axes at an angle of 90 °. loads, each associated with a corresponding one of four grips, an ultrasonic flaw detector associated with at least two ultrasonic sensors mounted on either side of the cruciform specimen, and a test chamber for accommodating the cruciform specimen, in which various operating conditions are simulated, wherein each of the power units contains a cyclic loading means made in the form of a hydraulic cylinder, and a means of static loading on a cruciform sample made in the form of an electromechanical cylinder, and the power unit is made with the possibility of static or about cyclic loading of a cruciform specimen simultaneously along two axes in the vertical and horizontal directions. In addition, in the particular case of the implementation of the invention, the frame is made in the form of a square.

In addition, in the particular case of the implementation of the invention, the frame is made in the form of a ring.

In addition, in a particular case of the implementation of the invention, the test chamber is a climatic chamber for testing at low temperatures.

In addition, in the particular case of the implementation of the invention, the test chamber is a corrosion chamber for testing in working environments with different contents of corrosive components.

Information confirming the possibility of carrying out the invention.

The implementation of the claimed invention is illustrated by a drawing, where:

Fig. 1 shows a diagram of a stand for static and cyclic tests of cruciform specimens,

where positions have the following designations:

1 - base for the stand frame;

2 - frame;

3 - test sample;

4, 5, 6, 7 - grips for fixing the test specimen;

8, 9, 10, 11 - power blocks;

12, 13, 14, 15 - guide rods;

16, 17, 18, 19-guide stops;

20, 21 - ultrasonic control sensors (hereinafter - ultrasonic inspection);

22 - ultrasonic flaw detector;

23 - test chamber.

The stand contains a frame 2, made of a square or annular shape, four grips 4, 5, 6, 7 for installing and fixing the test sample 3, ultrasonic sensors 20, 21 designed to track the development of a crack in the test sample 3 and functioning from an ultrasonic flaw detector 22, test chamber 23, which can be made in the form of a climatic chamber for testing at low temperatures or in the form of a corrosion chamber for testing in working environments with different contents of corrosive components, power units 8, 9, 10, 11 for creating biaxial loading, located at an angle of 90 degrees relative to each other and include hydraulic cylinders that create cyclic loads, and electromechanical cylinders, with the help of which a static load is established on the test sample 3.

The work of the stand for static and cyclic tests of cruciform samples is carried out as follows.

The tested cruciform sample 3 with a surface crack-like stress concentrator located in its central part is installed in the frame 2 of the stand and fixed motionlessly with the help of four grips 4, 5, 6, 7, attached to four power blocks 8, 9, 10, 11 located on two mutually perpendicular axes at an angle of 90 °, each of which consists of a means of cyclic loading, made, for example, in the form of a hydraulic cylinder, and a means of statistical loading, made, for example, in the form of an electromechanical cylinder, with the help of which the load on the test sample is set 3. Power blocks 8, 9, 10, 11 create biaxial loading.

Static loads are applied to the test specimen 3 - static tensile (along the "Y" axis) and static compressive (along the "X" axis). The values of the loads are established by the test procedure and depend on the geometric parameters of the samples and the materials from which the samples are made. In this case, the maximum values of the loads. Both in vertical and horizontal directions should not exceed 300 kN. After applying static loads, the signal amplitude is recorded using an ultrasonic flaw detector 22. Then, cyclic loads are applied (loading parameters are determined by a well-known technique). Every 200 cycles, using an ultrasonic flaw detector 22, the signal amplitude is recorded and the parameters of the developing crack are set. After the crack reaches the dimensions established by the method, the tests are stopped and the results are analyzed.

Additionally, a test chamber 23 is installed on the test sample 3, made in a climatic or corrosive design. Ultrasonic sensors 20, 21 are installed on both sides of the test sample 3, operating from an ultrasonic flaw detector 22. Then, the necessary measurements are carried out and the obtained information is recorded. The criterion for the success of the tests is the time it takes for the crack to reach the specified dimensions.

Additionally, the claimed invention makes it possible to carry out cyclic tests to assess the rate of crack growth in coordinates "mm / cycle", while using an optical microscope measure the length of the crack for a set unit of time and compare with the number of loading cycles corresponding to the length of the crack growth.

The claimed invention provides:

- biaxial loading of cruciform specimens;

- cyclic loading in the vertical and horizontal direction;

- static (stretching and compressing) in the vertical and horizontal direction;

- static loading at a slow strain rate in the vertical and horizontal directions.

In order to determine the operability of the stand structure and its optimal characteristics, tests were carried out in laboratory conditions at ambient temperatures in the range from 15 to 25 ° C inclusive. The tests were carried out on a cruciform specimen made of 09G2S steel with a wall thickness of 11 mm, a petal width of 40 mm, and a height of 500 mm from steel of strength class C345. The tests were carried out in the following modes: temperature in the tested sample - 20 ° C; static load - 150 kN; load in cyclic mode - 200 kN; the frequency of cyclic loading is 100 cycles per hour. The time until the crack with an area of 1.0 mm ² reached the specified dimensions, fixed by the sensors, was 86 hours.

The proposed design is used to study the durability of sheet metal and welded joints of the wall of vertical tanks by creating a biaxial stress state in the working area of the sample, which is equivalent to the stress state of the tank wall under operating loading conditions for tanks with a volume of 5000 to 50,000 m3 and a wall thickness of 7-32 mm.

Claims (5)

1. A stand for static and cyclic tests of cruciform specimens, containing a frame on which a biaxial loading device is installed, containing, located on mutually perpendicular axes, at an angle of 90 °, four grips for installing a cruciform specimen, four power units for creating biaxial loading, each of which is associated with the corresponding one of four grips, an ultrasonic flaw detector associated with at least two ultrasonic sensors mounted on either side of the cruciform specimen, and a test chamber for accommodating the cruciform specimen, in which various operating conditions are simulated, each from power blocks contains means for cyclic loading, made in the form of a hydraulic cylinder, and means for static loading on a cruciform sample, made in the form of an electromechanical cylinder, and the power units are made with the possibility of static or cyclic loading of a cruciform a known sample simultaneously along two axes in the vertical and horizontal directions. 2. The stand according to claim 1, characterized in that the frame is made in the shape of a square. 3. The stand of claim. 1, characterized in that the frame is made in the form of a ring. 4. The stand according to claim 1, characterized in that the test chamber is a climatic chamber for testing at low temperatures. 5. The stand according to claim 1, characterized in that the test chamber is a corrosion chamber for testing in working environments with different contents of corrosive components.

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