RU2164198C1 - Method for diffusion welding of lapped tubes - Google Patents

Abstract

FIELD: tube welding, namely, diffusion vacuum welding of lapped tubes from different materials. SUBSTANCE: welded zone of tubes 1,2 is placed into stationary annular support 3. Burnishing is realized by means of burnishing roller tool 6 having rod 5 secured eccentrically relative to rotation axis of burnishing tool 6. One burnishing roller 4 is mounted on rod 5 with possibility of rotation around its own axis. Method allows to join lapped tubes with minimum outer and inner diameters without heating bearing assembly supporting burnishing roller higher than 70 C. EFFECT: enhanced quality of tube joint. 3 cl, 2 dwg

Description

 The invention relates to the field of pipe welding, and more particularly to diffusion welding in a vacuum of pipes made of dissimilar materials when overlapping, when the ends of pipes assembled with overlap are heated in a vacuum to 0.7-0.8 the melting temperature of a lower-temperature alloy and compress the pipe walls in the overlap area between themselves in the radial direction. Squeezing is carried out with a force of 2-5 kg / mm and maintained at a welding temperature for 2-20 minutes.

 A known method of diffusion welding of metal pipes lap, mainly short, when the welding compression of the lap pipe section is carried out sequentially along a helical line at least at two symmetrically located points by a rotating mandrel with rolling rollers, and the certificate is moved along the welded joint zone (see.with. USSR N 677851, B 23 K 19/00). The diameter of the circumference described around the rollers is 1-3 mm larger than the diameter of the hole of the inner pipe. For each revolution of the mandrel, it is moved along the lap joint zone by 0.05-0.5 mm, while the inner tube at each moment of rotation of the mandrel is deformed at the points of contact with the rollers and is pressed against the inner surface of the outer tube with force, resulting in diffusion setting of welded pipe surfaces.

The main disadvantage of this method is the inability to weld lap pipes with a diameter of less than 120 mm, because two or more rollers with bearings and a mandrel is almost impossible to place in the inner pipe, with a diameter of less than 120 mm, ensuring their performance in the pipe, which can be heated to 850 - 1150 ^o C. The second disadvantage of this method is the low resistance of bearings on which rolling rollers in the heating zone rotate. During rolling, the roller bearings can heat up to 500 ^o - 750 ^o C, which leads to their rapid wear and failure.

The problem to which the claimed invention is directed, is to create a method of diffusion lap welding of pipes, which would allow welding pipes with a diameter of less than 120 mm with a minimum inner diameter of the inner pipe of 40 mm, while the maximum heating of the bearings on which the rolling rollers do not have to exceed 70 ^o C.

 The technical result obtained by the implementation of the present invention is that the walls of the pipes heated to the temperature of diffusion welding, at each point in time during the welding process are compressed at only one point between the rolling roller and the stationary ring support, in which the place can be moved overlays of the welded workpiece.

 Squeezing the pipe walls at only one point allows you to use only one rolled roller with a diameter of 25-45 mm for rolling, which in turn allows you to weld pipes with an inner diameter starting from 40 mm and above.

In this case, the bearings on which the rolling roller rotates are located outside the pipe heating and heat up during continuous operation no higher than 70 ^o C. Such heating is permissible for both sliding and rolling bearings.

 The specified technical result is achieved by the fact that in the known method of diffusion welding of lap pipes, in which the lap is heated to the welding temperature and the surfaces to be welded are pressed successively along a helical line by rolling the inner pipe with a rotating rolling mill, while the section of pipes to be welded is placed in a fixed ring support, and rolling is carried out by a roller rolling mill, including a rod mounted eccentrically relative to the axis of rotation of the rolling rolling mill and mounted on it can rotate about its own axis one rolling roller; in addition, the eccentrically rotated rod is moved along the axis of the motionlessly welded pipe sections; in addition, the welded pipe section is moved relative to the rod.

 The essence of the proposed method is explained by the drawings, where in FIG. 1 presents a graphical diagram of the implementation of the claimed method in the case when an eccentrically rotated rod is moved along a stationary tubular lap.

 In FIG. 2 presents a graphical diagram of the implementation of the claimed method in the case when a relatively eccentrically rotated rod move the welded pipe section.

To ensure diffusion welding of pipes of small diameter, for example, starting from 40 mm, and at the same time to prevent the bearings on which the rolling roller rotates above 70 ^o C, it is necessary to fulfill a number of technical conditions:
1. The rolling of the inner pipe in the lap must be done with one roller so that the diameter of the pipes to be welded can be minimized, while the rolled roller should be at least 10-15 mm smaller than the inner diameter of the rolled pipe.

 2. The rolling roller should rotate eccentrically relative to the axis of rotation of the rolling coil and the axis of the pipes to be welded, while the diameter of the circumscribed circle around the eccentrically rotated roller should be 1-2 mm larger than the inner diameter of the rolled pipe in the lap.

 3. The lap section of the pipes to be welded must be heated to the temperature of diffusion welding and placed at the time of welding in a fixed ring support so that the compression of the walls to be welded at the point of contact of the roller occurs between the ring support and the rolling roller.

 To fulfill these conditions, pipes 1 and 2 assembled in the form of an overlap are first heated in a vacuum to the temperature of diffusion welding, and then, using a movable support 8, they are placed in the support ring 3, which is fixedly mounted in the housing of the vacuum welding unit.

 The rolling roller 4 is mounted on the end of a long rod 5, the opposite end of which is mounted in bearings, which are mounted on the end of the shaft of the rolling bar 6 with an eccentricity with respect to the axis of rotation. The diameter of the circle, which is described by the extreme point of the roller 4, is set to 1 - 2 mm larger than the inner diameter of the rolled pipe.

 There are two options for rolling.

 In the first embodiment, the roller 4 is moved up and down, which rolls out the inner pipe 2 in the lap with a stationary workpiece, which is held from turning by a protrusion made on the movable support 8.

 The rolling of the inner pipe starts from the upper end of the pipe 2. For this, the roller is installed above the end at a distance of 1-2 mm and the rotation of the reamer 6 is turned on. As a result, the rod 5 with the expansion roller 4 begins to make circular movements, while the diameter of the circle described by the extreme point rolling roller 4 should exceed, depending on the design of the workpiece and the materials to be welded, 0.5-2 mm larger than the inner diameter of the pipe 2. After that, the rolling bar 6 is started to be lowered down without stopping its rotation. Roller 6 is lowered until the roller 4 passes the entire length of the lap in the welded workpiece. After that, without stopping the rotation of the roller 6, it is lifted and the rolled roller 4 is removed from the inner zone of the welded billet.

 In the second embodiment, only the welded workpiece is moved up and down by the length of the lap, and the rolling roller 4 rotates constantly at the same level in the middle of the height of the support ring 3.

 The rolling of the inner pipe, as in the first case, begins from the upper end of the pipe 2. To do this, using the movable support 8, raise the workpiece preheated to the temperature of diffusion welding and introduce it into the support ring so that between the upper end of the inner pipe 2 provided a gap of 0.5-2 mm. After that, the rotation of the rolling mill 6 is turned on and the workpiece is raised upward using the movable support 8. The rotation speed of the rolling mill and the speed of movement of the movable support 8 are selected so that the movement of the workpiece being welded does not exceed 0.5 mm per revolution, which is necessary to obtain high-quality welded diffusion joint. After rolling by roller 4 the entire length of the lap of pipes 1 and 2, without disabling the rotation of the rolling mill, the movement of the movable support is switched downward at the same speed, which allows you to completely remove the welded workpiece from the support ring 3 and send it for cooling. The removal of the welded workpiece is ensured due to the fact that the diameter of the support ring where the heated workpiece is placed is always set 0.3-0.5 mm larger than the outer diameter of the pipe 1 of the workpiece heated to diffusion welding temperature.

An example of a specific implementation of the method
Lap joint of dissimilar pipes 200 mm long, made of ОХ18Н10Т stainless steel, 100 mm in diameter, 10 mm wall thickness, and zirconium alloy with 25% niobium with a diameter of 80 x 5 mm were welded by diffusion welding in vacuum by roller rolling of the inner pipe at an overlap length of 120 mm

 For hot rolling, they chose a replaceable roller with a diameter of 40 mm of their heat-resistant steel.

 The roller was fixed at the end of a rod 250 mm long, mounted with an eccentricity with respect to the axis of rotation of the reamer.

 The roller was installed in the middle of the height of the support ring (see Fig. 2).

 The diameter of the circle described by the outer part of the rolling roller was chosen equal to 71.6 mm, which was 0.8 mm per side for the distribution of the inner tube of zirconium alloy.

 These sizes were chosen taking into account the elimination of the assembly gap between the pipes and the gap formed due to the significant difference in the thermal expansion coefficients between the stainless and zirconium pipes.

Carefully cleaned and degreased pipes were assembled with an overlap of 120 mm and mounted on a movable elevator of a vacuum welding unit (see Fig. 2). The chamber was evacuated, the workpiece after creating a working vacuum in the chamber was moved using a movable elevator 8 to a high-frequency inductor, in which the blank was heated to 900 ^o C, after which the same movable elevator 8 was placed in the support ring 3 so that the end face of the inner zirconium tube of the blank did not reach the roll roller by 0.5-2 mm.

 After that, the rotation of the rolling mill was turned on at a speed of 250 rpm, after which the movable lift was turned on for upward movement at a speed of 100 mm / min.

 The lift was stopped after raising the workpiece by 125 mm and immediately turned it on downward until the rolling roller completely out of contact with the inner tube. Then the rotation of the rolling mill was stopped, the workpiece was cooled and removed from the welding unit.

 After cooling, the welded billet was turned to the required dimensions of the zirconium-steel adapter, after which it was subjected to non-destructive testing methods.

Claims (3)

 1. A method of diffusion welding of lap pipes, in which the lap is heated to a welding temperature and the surfaces to be welded are pressed successively along a helical line by rolling the inner pipe with a rotating roller mill, characterized in that the section of pipes to be welded is placed in a fixed ring support, and rolling is carried out by roller a rolling mill, including a rod mounted eccentrically relative to the axis of rotation of the roller rolling mill, and mounted on it with the possibility of rotation relative its axis one reeling roller.  2. The method according to claim 1, characterized in that the rod is moved along the axis of the fixed welded pipe section.  3. The method according to claim 2, characterized in that the welded pipe section is moved relative to the rod.

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