RU2615918C1 - METHOD OF PRODUCING SEAMLESS MACHINED PIPES WITH 530x23-28 mm SIZE FROM THE STEEL GRADE "08Х18Н10-Ш" - Google Patents

Abstract

FIELD: metallurgy.

SUBSTANCE: method comprises the casting of hollow ingots by electroslag remelting with 740×in.480×2600±50 mm, boring and refacing in billet ingots with size of 720×in.520×3200±50 mm, heating the billet ingots in reheat furnaces to the temperature of 1260-1270°C, delivery of them into ingot trolley, blowing with compressed air or inert gas, supply inside of billet ingots from two ends of lubricant with mass 2000-2500 g in the form of mixture of graphite with sodium chloride in a ratio of 50/50, transportation of hollow billet ingots to the upstream side of the Pilger mill, rolling at Pilger mill into stock with size 550×30×10300-10700 mm, cutting of process wastes: bare ends and pilger heads by hot cutting saw, straightening on a six-roll straightening machine to the curvature of not more than 6.0 mm on the tube stock length, austenitizing, tube stock cutting into two pipes of equal length, mechanical treatment-boring and turning of hot-rolled pipe stock with size 550×30×5150-5350 mm into commercial pipes with size 530×8-12×5150-5350 mm.

EFFECT: reduction of metal consumption in pipes production.

2 cl, 1 tbl

Description

The invention relates to pipe rolling and metallurgical industries, and in particular to a method for the production of seamless hot-deformed machined pipes with a size of 530 × 23-28 mm from steel grade 08X18H10-Sh of high accuracy for nuclear power facilities.

In the pipe industry, there is a known method for the production of seamless hot-formed mechanically machined pipes with a diameter of 530-550 mm from corrosion-resistant hardly deformable steel grades and alloys on TPU 8-16 "with pilgrim mills, including casting ESR ingots 610 × 1725 ± 25 mm in size, machining - turning of ingots into ingot blanks with a size of 590 ± 5.0 × 1725 mm, drilling into ingot blanks of a central hole with a diameter of 100 ± 5.0 mm, boring of ingot blanks to a size of 590 ± 5.0 × ext. 220 ± 5.0 × 1750 ± 25 mm, heating ingot blanks to temperatures plasticity, piercing in a cross-helical rolling mill into billet sleeves measuring 620 × ext. 365 × 1950-2000 mm on a mandrel with a diameter of 350 mm with a diameter rise of δ = 4.0-6.0%, heating of the billet blanks with cold or hot planting to a temperature of ductility, firmware-rolling in a cross-helical rolling mill into sleeves of size 660 × 505-515 × 2950-3100 mm on a mandrel with a diameter of 490-500 mm with a diameter rise of δ = 5.5-6.5 %, rolling of sleeves on TPU 8-16 "with pilgrim mills into redistribution pipes with a diameter of 530-550 mm with a ratio D / S = 13.5-15.0, with an allowance for the thickness of the wall under the mechanical ical treatment-boring and turning, determine the thickness filmed metal layers in the turning and boring of expression Δ = D / S * K, Δ ₁ = D / S * K ₁ where Δ - thickness of metal removed layer in the turning of hot tubes on the outer surface, mm; Δ ₁ - the thickness of the removed metal layer when boring hot rolled pipes on the inner surface, mm; D is the outer diameter of the hot rolled pipes, mm; S is the wall thickness of the hot rolled pipes, mm; K = 0.5-0.7 - coefficient for determining the thickness of the removed metal layer when turning pipes, large values of which apply to pipes with thicker walls; K ₁ = 0.4-0.5 - coefficient for determining the thickness of the removed metal layer when boring pipes, large values of which relate to pipes with thicker walls (Patent No. 2387501, July 27, 2010, bull. No. 12).

The disadvantage of this method is that it solves the general issues of the production of seamless hot-deformed tubes from corrosion-resistant hard-deformed steel grades and alloys with a ratio of D / S = 13.5-15.0 for subsequent machining - boring and turning them into commodity pipes with a diameter of 530 -550 mm with a wall thickness of more than 20 mm, a length of not more than 4700 mm and does not solve the technological issues of the production of limit and machined pipes of 530 × 23-28 mm in size from steel grade 08X18H10-Sh of increased accuracy in diameter and wall A nuclear power facilities.

In world practice, pipes of size 530 × 23-28 mm of increased accuracy from 08Kh18N10-Sh steel have not been manufactured and are not manufactured at tube-rolling plants with pilgrim mills.

In the pipe industry, a method is known for producing seamless hot-formed mechanically machined pipes with a diameter of 273-550 mm from carbon steel 20 and alloy steels of grades 15GS, 15GS-Sh, 16GS, 16GS-Sh, 12Kh1MF and 15Kh1M1F for the production of parts and elements of pipelines of TPPs and NPPs using trepanation cylindrical forgings with subsequent boring and turning of a predetermined size with a purity of not lower than R _z of 40 microns (TU 1310-030-00212179-2007 "seamless pipes Hot machined from carbon and alloy steels for tubes wire thermal and nuclear power. "

The disadvantages of this method are the large expenditure coefficient of the metal (≈ from 5.4 to 16.5), the value of which increases with decreasing wall thickness of the commodity pipes and increasing diameter, increased complexity and energy consumption associated with heating and forging ingots weighing more than 12 tons into cylindrical forging a length of 5.0 m, stump end trim, trimming and turning of forging a predetermined outer diameter trepanation forging blanks for the unique equipment, followed by boring with a surface roughness R _z is not less than 40 microns, and as a COROLLARY, increased the cost of boiler tubes.

The closest technical solution (prototype) is a method for the production of seamless hot-deformed long pipes with a diameter of 500 mm and more on pipe rolling plants with pilgrim mills for steam boilers, steam pipelines and collectors of plants with high and supercritical steam parameters (Patent RU No. 232322315, class B21V 19 / 04, November 27, 2007), including the casting of hollow ingots by electroslag remelting with the ratio of diameter to wall thickness D / S = K ₁ , H = K ₂ D and H ₁ = K ₃ D, where D = 680 is the outer diameter of the hollow ingot of electroslag remelting mm; S is the wall thickness of the hollow ingot of electroslag remelting, mm; K ₁ = (4.8–9.2) is a coefficient whose large values are taken for hollow ingots with a smaller wall thickness; N = (3000-3500) - the height of the hollow ingot of electroslag remelting for rolling pipes with a ratio of D / S≤20, mm; K ₂ = (4.4-5.2) - the values of the coefficients for rolling pipes with a ratio of D / S≤20; H ₁ = (2000-2100) - the height of the hollow ingot of electroslag remelting for rolling pipes with a ratio of D / S≤20, mm; K ₃ = (2.9-3.1) - coefficient values for rolling pipes with a ratio of D / S≥20, mm, hollow ingots of electroslag remelting for rolling boiler pipes with a ratio of D / S≥20, cast with an inner diameter of D _{ext .} = D _d ± 5.0, where D _d is the mandrel diameter, mm, electroslag remelting ingots for rolling boiler pipes are machined and bored into hollow ingots with metal removal of 8 ± 2.0 mm thick to remove welding slag and casting defects , hollow ingots-blanks of electroslag remelting are heated to the temperature of plasticity and rolled on a pilgrim mill into pipes with a ratio D / S≥20 with a tolerance of ± 1.0% in diameter and wall thickness + 15.0 / -10.0%, hollow ingots electroslag remelting for rolling boiler pipes with a ratio D / S≤20 cast wagons with an inner diameter of 300 ± 10 mm, which are turned and bored into hollow ingots-blanks with metal removal with a thickness of 8 ± 2.0 mm to remove welding slag and casting defects, hollow ingots-blanks of electroslag remelting are heated to ductility temperature, stitched - They are rolled in a cross-helical rolling mill into sleeves on a mandrel with a diameter larger than the mandrel diameter by 15-20 mm and rolled on a pilgrim mill in pipes with a ratio D / S≤20 with a tolerance of ± 1.0% in diameter and a wall thickness of +15.0 / -10.0%.

One of the main disadvantages of this method is that it is aimed at the production of boiler pipes with a diameter of up to 550 mm and does not solve the technological issues of the production of pipes with a size of 530 × 23-28 mm from 08Kh18N10-Sh steel for nuclear power facilities.

The disadvantages of this method are the dimensions of the hollow ingots ESR, which make it difficult to determine the geometric dimensions of the hollow ingots-blanks for rolling pipes of the required size; the inner diameters of hollow ingots-billets, taking into account the removal of metal with a bore of 8 mm per side, have underestimated results, which when rolling thick-walled pipes leads to tightening mandrels; rolling of pipes with a wall thickness of more than 30 mm is associated with additional firmware - rolling of hollow ingots-blanks in a cross-helical rolling mill, which with high probability can lead to increased curvature and difference in sleeves, with uneven heating of ingots-blanks in methodical furnaces, and therefore to the difference of the pipes.

The objective of the proposed method is the development and implementation of a technological process for the production of seamless hot-formed mechanically machined pipes with a size of 530 × 23-28 × 5850-6150 mm with a tolerance of ± 0.8% in diameter and ± 10.0% in wall at Chelyabinsk Tube Rolling Plant OJSC ( in short ChelPipe) from steel grade 08Kh18N10-Sh for nuclear power facilities, reducing metal consumption in their production, and, consequently, reducing their cost.

The technical result is achieved by the fact that the method of manufacturing seamless machined pipes of 530 × 23-28 mm in size for nuclear power facilities made of 08Kh18N10-Sh steel includes casting hollow ingots by electroslag remelting of 740 × vn. 480 × 2600 ± 50 mm in size, boring and turning into ingot blanks with a size of 720 × ext. 500 × 2600 ± 50 mm, heating ingot blanks in methodological furnaces to a temperature of 1260-1270 ° C, dispensing them to an ingot cart, blowing with compressed air or inert gas, feeding ingot ingots with two ends of a lubricant weighing 1800-2000 g in ide mixture of graphite with table salt in a ratio of 50/50, transportation of hollow ingots-blanks to the entrance side of the pilgrim mill, rolling on a pilgrim mill on cone mandrels with a diameter of 463/469 mm in caliber 562 mm, cut into rolls with a barrel diameter of 1150 mm, s the angle of the transverse outlet on the polishing section 24-26 °, into the conversion pipes 550 × 45 × 5850-6150 mm in size with a drawing coefficient μ = 2.89, a diameter reduction Δ = 21.43% and feeding the ingots into the deformation zone m = 23-24 mm, a piece of technological waste - seed ends and pilgrim holo ok with a hot cutting saw, straightening on a six-roll straightening machine using rolling heating temperature for 2-3 passes to a curvature of not more than 6.0 mm for the length of a hot rolled pipe, austenization, machining - boring and turning of hot rolled steel pipes of 550 × 45 × 5850-6150 mm into commodity pipes measuring 530 × 23-28 × 5850-6150 mm and their acceptance for compliance with the requirements of TU 14-3R-197-2001; the machining of hot rolled hot-rolled pipes of size 550 × 45 × 5850-6150 mm into commodity machined pipes is first performed at a size of 530 × 28 mm, then at a size of 530 × 27, 530 × 26, 530 × 25, 530 × 24 and 530 × 23 mm

A comparative analysis of the proposed solution with the prototype shows that the inventive method for the production of seamless machined pipes of 530 × 23-28 mm in size for nuclear power facilities made of 08Kh18N10-Sh steel is different from the well-known one in that hollow ingots are cast using electroslag remelting with a size of 740 × int. 480 × 2600 ± 50 mm, boring and turning into ingot blanks with a size of 720 × ext. 500 × 2600 ± 50 mm, heating ingot blanks in methodological furnaces to a temperature of 1260-1270 ° C, dispensing them to an ingot cart, blowing with compressed air or inert m gas, supplying ingot ingots from two ends of the lubricant in an amount of 1800-2000 g in the form of a mixture of graphite with sodium chloride in a ratio of 50/50, transporting hollow ingot blanks to the inlet side of the pilgrim mill, rolling in a pilgrim mill on conical mandrels with a diameter 463/469 mm in 562 mm caliber, cut into rolls with a barrel diameter of 1150 mm, with an angle of lateral release on the polishing section of 24-26 °, into conversion pipes of 550 × 45 × 5850-6150 mm in size with an extraction coefficient μ = 2.89 , compression in diameter Δ = 21.43% and the supply of ingots-blanks to the deformation zone ii m = 23-24 mm, a piece of technological waste - seed ends and pilgrim heads with a hot cutting saw, straightening on a six-roll straightening machine using rolling heating temperature for 2-3 passes to a curvature of not more than 6.0 mm for the length of a hot rolled pipe, austenization, machining - boring and turning of hot-rolled pig tubes of size 550 × 45 × 5850-6150 mm into commodity pipes of size 530 × 23-28 × 5850-6150 mm and their acceptance for compliance with the requirements of TU 14-3R-197-2001, this machining of hot redistribution GOVERNMENTAL pipe size 550 × 45 mm × 5850-6150 commodity machined tube to produce a first size 530 × 28 mm, then the size of 530 × 27 530 × 26 530 × 25 530 × 24 and 530 × 23 mm. Thus, these differences allow us to conclude that the criterion of "inventive step" is met.

For the first time in world practice, the method of manufacturing seamless machined pipes of 530 × 23-28 mm in size for nuclear power facilities made of 08Kh18N10-Sh steel was carried out according to the proposed technology in the production of pipes of 530 × 28 × 6000 mm in size by machining - boring and turning hot rolled pipes of 550 × 45 × 6000 mm in size, rolled at 8-16 "TPU with Pilgrim mills of OAO ChTPZ from hollow ingot blanks EShP of size 720 × ext. 500 × 2600 mm. Since pipes of this assortment on TPU with pilgrim mills do not produced then comparative rolling was not carried out.

Two hollow ESR ingots-blanks with a size of 720 × ext. 500 × 2600 mm, with a total mass of 8.6 tons, which were heated in a method furnace to a temperature of 1260-1270 ° C, were assigned to production. After issuing them to the ingot trolley, the ingot blanks were purged with compressed air. Lubrication of ingot blanks was carried out by feeding a mixture of graphite with sodium chloride in a ratio of 50/50 of 900-1000 g at each end. Then, the ingot blanks were supplied by crane to the inlet side of the pilgrim mill. Rolling in a pilgrim mill was carried out in a caliber 562 mm with a lateral outlet angle at a polishing section of 25 °, cut into rolls with a barrel diameter of 1150 mm, into conversion tubes respectively 550 × 45 × 6000 mm in size on conical mandrels with a diameter of 463/499 mm with a draw ratio μ = 2.89, compression in diameter Δ = 21.43% and the supply of ingot blanks to the deformation zone m = 23-24 mm. After cutting off the technological waste - seed ends and pilgrim heads - straightening on a six-roll straightening machine was carried out in 2-3 passes using the temperature of the pipes from rolling heating. The curvature of the pipes after the correct machine was determined by eye. After cooling the pipes, the maximum pipe curvature ranged from 4.0 to 6.0 mm. After heat treatment - austenization, pipes with a size of 550 × 45 × 6000 mm were bored, turned and adopted according to TU 14-3R-197-2001. Data on the production of seamless machined pipes with a size of 530 × 28 × 6000 mm from steel grade 08X18H10-Ш according to the proposed technology are shown in table 1.

From table 1 it can be seen that the expenditure coefficient of the metal in the production of pipes of 530 × 28 × 6000 mm in size from hollow ingots-blanks of 720 × in. 500 × 2600 mm was 2.068.

Thus, the use of the proposed method made it possible for the first time in world practice at TPU 8-16 "to carry out the production of pig tubes of size 550 × 45 × 5850-6150 mm from hollow ingots-blanks of size 720 × ext. 500 × 2600 ± 50 mm for subsequent machining - boring and turning them into commodity seamless machined pipes with a diameter of 530 mm and wall thicknesses from 23 to 28 mm made of 08Kh18N10-Sh steel for nuclear power facilities.The pipes in terms of geometric dimensions and surface quality fully meet the requirements of TU 14-3R-197- 2001.

Claims (2)

1. Method for the production of seamless machined pipes 530 × 23-28 mm in size from 08Kh18N10-Sh steel, including the casting of hollow ingots by electroslag remelting of 740 × vn. 480 × 2600 ± 50 mm in size, boring and turning into 720 × ingots ext. 500 × 2600 ± 50 mm, heating the ingot billets in methodical furnaces to a temperature of 1260-1270 ° C, dispensing them to the ingot trolley, blowing it with compressed air or inert gas, feeding ingot billets from two ends of the lubricant weighing 1800-2000 g in the form of a mixture of graphite with sodium chloride in a ratio of 50/50, rolling on drank a make-up mill on conical mandrels with a diameter of 463/469 mm in caliber 562 mm, cut into rolls with a barrel diameter of 1150 mm, with a transverse angle of exit at the polishing section of 24-26 °, into pig tubes of 550 × 45 × 5850-6150 mm in size with a coefficient hoods μ = 2.89, compression in diameter Δ = 21.43% and feeding ingot blanks to the deformation zone m = 23-24 mm, a piece of technological waste — seed ends and pilgrim heads — a hot cutting saw, straightening on a six-roll straightening machine using the temperature of rolling heating for 2-3 passes to the curvature of not more than 6.0 mm for the length of the conversion pipe, austenization, machining - boring and turning of hot-rolled conversion pipes of 550 × 45 × 5850-6150 mm in size into commodity pipes of 530 × 23-28 × 5850-6150 mm in size. 2. The method according to p. 1, characterized in that the machining of the hot rolled pipes of size 550 × 45 × 5850-6150 mm into commodity machined pipes is first carried out at a size of 530 × 28 mm, then at a size of 530 × 27, 530 × 26 , 530 × 25, 530 × 24 and 530 × 23 mm.