RU2582229C1 - Installation for testing samples of metal welded and seamless pipes - Google Patents

Abstract

FIELD: measuring equipment.

SUBSTANCE: invention relates to measurement equipment for industry and can be used for testing of longitudinal and transverse specimens of parent metal pipes, samples with welded seams, including repair weld seam, for studying properties of sputtered materials, organic coatings for evaluation of steel to sulphide stress cracking. Apparatus comprises bearing frame and test specimen arranged symmetrically on 4-point bend between two inner supports and two external supports. Bearing frame is supplemented with fastener made up of permanent closed along outline of housing, inside of which, symmetrically in grooves of housing, there are external cylindrical support. Internal cylindrical supports are located in grooves at bottom of movable plate receiving load. Top plate edges is provided with symmetric chamfers for displacement between chamfers and housing wedges connected detachable with adjusting screws.

EFFECT: higher accuracy of determining (trap) of origination and development of corrosion cracks in samples of metal seamless and electric welded pipes, including thicker wall.

5 cl, 2 dwg

Description

The installation for testing metal samples of welded and seamless pipes relates to measuring equipment for industry and can be used to test longitudinal and transverse samples of the base metal of pipes, samples with welds, including repair welds, to study the properties of sprayed materials, organic coatings, for evaluation of steels for sulfide stress cracking.

Known devices for loading such samples (accessories) to 4-point bending for evaluating steels to sulfide stress cracking, set forth in the international standard, containing an element of loading in the form of an open bracket, which are designed to test samples, mainly from thin-walled pipes, when this loading is carried out using a bolt. For testing full-thickness samples from pipes with a large wall thickness (for example, a wall thickness of 30.6 mm, 39.0 mm), such a loading scheme requires the use of massive tooling. Considering that the equipment together with the loaded sample is placed in a test container with a corrosive medium, such a test scheme is difficult to implement. (ISO 7539-2: 1989 (ISO = the International Organization for Standartization), standard procedure G 39-99 (2005) for the preparation and use of samples in the form of a curved beam for stress corrosion tests Nos. 1.1-1.7 and 6.2, 6.3 " (Annex 1).

This equipment is bulky enough for immersion in an aggressive environment along with the sample. When loading the sample with bending stresses, it is difficult to take into account the magnitude of the deformation of the tool material, and at the points of contact of the tool with the sample, which does not ensure loading accuracy during deflection of the sample, uniform stresses in the material of the massive sample in its central part are not provided.

It is known "Device for testing bending of sheet steel" according to patent RU 2327133, dated 12/26/2006, published on 06/20/2008. IPC G01N 3/00, containing horizontal rectangular plates with bending supports and vertical guide columns, a lower foundation and fixed plate with two bending supports made with the possibility of changing the distance between them, the upper one movable with holes for two columns, with a threaded hole - a nut for a screw for moving a movable plate, on which one bending support is placed, and this plate contains rolling bearings near the holes for centering and moving along the columns; the distance "l" between the bending supports on the foundation plate varies depending on the thickness of the bending steel S and the bending radius r and l = (2r + 3S) ± 0.5S, mm.

This equipment is bulky enough for immersion in an aggressive environment along with the sample.

The closest technical solution is "Installation for assessing the tendency of pipe metal to stress corrosion" according to patent RU 80237 from 08/07/2008, publ. 01/27/2009, IPC G01N 3/08, containing a power frame equipped with a cell with an aggressive environment, and a sample of the tested pipe.

For testing on this installation, a bulky sample is used; a corrosive medium is brought to the sample only to a small part of its surface on one side.

It is impossible to ensure a constant level of stress along the length of the specimen and the accuracy of measurements of the process of nucleation and development of cracks in the pipe metal and welded joints during the entire test period.

The problem was solved due to the installation for testing metal samples of welded and seamless pipes containing a power frame and a test sample placed symmetrically on a 4-point bend between two internal supports and two external supports, while the power frame is supplemented by a holder made in the form of an integral closed loop the contour of the housing, inside of which symmetrically, in the recesses of the housing, external cylindrical supports are placed; cylindrical internal bearings are located in the recesses below the movable bar, taking the load; the top of the bar at the edges is equipped with symmetrical bevels, for moving between the bevels and the body, wedges connected detachably with adjusting screws; the test sample is made with a weld, including a repair weld located in the center of the sample; the test sample is made in the form of plates of rectangular cross section; the test sample is made in the form of a curved template with dimensions up to 260 × 25 × t mm, where the size t corresponds to the total thickness of the pipe wall from 5 mm to 50 mm; detachable sub with a compression dynamometer and a jack are connected to the movable bar from above.

Supplementing the power frame with a holder made in the form of an integral, closed along the contour of the case, and the location inside the case of the movable plate with bevels and cylindrical internal supports in the recesses, adjacent to the plate, with the possibility of movement, between the bevels of the plate and the holder body, wedges connected to adjusting screws, as well as the location of the outer cylindrical supports in the recesses in the housing does not allow the cylindrical supports to move when loading the sample, which allows a more smooth and high accuracy load the test specimen, symmetrically fixed to 4-point bending, and equalize the load between the two internal supports and two external supports fixed in the recesses, to increase the accuracy of controlling the onset of the nucleation process and the development of cracks in the pipe metal and welded joints during the entire test period .

The installation for testing metal samples of welded and seamless pipes is shown in the drawings, where in FIG. 1 is a view of a sample holder; FIG. 2 - power frame for loading.

In FIG. 1, 2 show: holder body 1, sample 2, external bearings 3, internal bearings 4, screws 5, movable wedge 6, movable bar 7, jack 8, compression dynamometer 9, sub 10, holder with sample 11, power frame 12, bevels 13,

Installation for testing metal samples of welded and seamless pipes is as follows.

The holder case is made in the form of a closed contour of an oval of irregular shape, which allows you to fix in it and load massive samples with a thickness of more than 15 mm.

Inside the holder body 1 for 4-point bending, the test piece 2 is placed symmetrically between a pair of inner cylindrical supports 4 and a pair of outer cylindrical supports 3.

For accurate fixation of the pair of lower support points of the sample, a pair of external cylindrical supports 3 is placed in the recesses of the holder body, in the lower arc of the oval.

To transfer the load to the test sample 2 during loading inside the holder body 1 above the sample 2, a movable bar 7 is located, supported by a pair of internal supports 4, placed to accurately fix the pair of upper points of the sample support in the recesses of the lower part of the movable bar 7, which ensures loading accuracy during deflection sample, and uniform stresses in the material of the massive sample.

An adapter 10 is detachably mounted on the movable bar 7 from the top in the center, designed to transmit the initial (maximum in magnitude) force from the jack 8, equipped with a dynamometer 9, to the movable bar 7.

To ensure that the movable wedges 6 are not displaced along the bevels of the strap 7 and maintain the loading accuracy of the sample 2, during the tests, the movable wedges 6, after moving to the desired position, when the calculated geometric value determined by the geometrical parameters of the pipe reaches the bend (deflection) of the sample (R) fixed with screws 5 between the bar 7 and the upper oval of the closed loop of the holder 1.

To accurately bring the applied loading force to the test sample 2 to the calculated value (deflection) and to equalize between the pair of supports 4 the efforts after the main loading with the jack 8, symmetrically arranged bevels are mounted on which the adjacent to the bar 7 are mounted, with the possibility of movement along the bevels between the bar 7 and the upper oval of the closed contour of the holder 1, movable wedges 6 connected to the adjusting screws 5.

The bevels on the movable bar 7 are made to transfer force to the bar and equalize the forces between the pair of supports 4, when moving the movable wedges 6 between the bar 7 and the upper oval of the closed contour of the holder 1, to the center of the bar, from the screws 5, and through the internal supports 4, to test sample 2, until the required deflection of the sample and its reliable fixation, between the strap 7 and the upper oval of the closed loop of the holder 1, for the entire test period.

Test sample 2, made with a weld or with a repair weld located in the center of the sample, or in the form of rectangular plates, or in the form of a curved template with sizes up to 260 × 25 × t mm, where the size t corresponds to the total thickness of the pipe wall from 5 mm to 50 mm, fixed symmetrically to a 4-point bend between two internal supports 4 and two external supports 3.

To control the deflection of sample 2, the device is equipped with a dial indicator (not shown in the drawings).

Installation for testing metal samples of welded and seamless pipes is used as follows.

Sample 2 is placed between the outer 3 and inner 4 cylindrical supports of the holder 1. An adapter 10 is installed on the movable bar 7, through which the jack 8, according to the compression dynamometer 9, sets the initial (maximum value) loading force on the movable bar 7.

The exact adjustment of the applied force to the calculated value (deflection) and its equalization are performed by turning the left and right screws 5, moving the wedges 6 along the bevels of the movable bar 7 to its center, to transfer force from the screws 6 to the bar 7, from the bar 7 through the internal supports 4 per test sample 2.

To ensure the accuracy of loading samples 2 and to eliminate the displacement of the wedges 6 during the test, the wedges 6, after moving to the desired position, upon reaching the calculated value (deflection) are fixed with screws 5.

The curvature of the sample (R) is determined by the geometric parameters of the pipes.

The holder 11 with the loaded and fixed sample 2 is removed from the power frame 12 and immersed in an aggressive environment.

The unit is suitable for testing longitudinal and transverse samples of the base metal of pipes, samples with welds, including repair welds, for studying the properties of sprayed materials, organic coatings, etc.

The technical result consists in increasing the accuracy of determining (capturing) the beginning of the process of nucleation and development of corrosion cracks in metal samples of seamless and electric-welded pipes, including those with a large wall thickness, due to the holder, made in the form of an integral closed-loop enclosure, inside which is symmetrical, in the recesses of the housing, external cylindrical bearings are placed; internal cylindrical supports are located in the recesses below the movable bar, taking the load; the top of the bar at the edges is equipped with symmetrical bevels, for moving between the bevels and the case, wedges connected detachably with adjusting screws, which ensures the accuracy of loading the samples, balancing the load between two internal supports and two external supports, eliminates the displacement of wedges and supports in the holder, and holds the necessary deflection of the sample during the base test time.

Claims (5)

1. Installation for testing metal samples of welded and seamless pipes, containing a power frame and a test sample placed symmetrically on a 4-point bend between two internal supports and two external supports, characterized in that the power frame is supplemented by a holder made in the form of an integral closed the contour of the housing, inside of which symmetrically, in the recesses of the housing, external cylindrical supports are placed; internal cylindrical supports are located in the recesses below the movable bar, taking the load; the top of the bar at the edges is equipped with symmetrical bevels, for moving between the bevels and the body, wedges connected detachably with the adjusting screws. 2. The installation according to claim 1, characterized in that the test sample is made with a weld, including a repair weld located in the center of the sample. 3. Installation according to claim 1, characterized in that the test sample is made in the form of plates of rectangular cross section. 4. Installation according to claim 1, characterized in that the test sample is made in the form of a curved template with dimensions up to 260 × 25 × t mm, where the size t corresponds to the total thickness of the pipe wall from 5 mm to 50 mm. 5. Installation according to claim 1, characterized in that a detachable sub with a compression dynamometer and a jack are connected to the movable bar from above.

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