RU2514240C1 - Production of 530x25-60 mm seamless hot-rolled pipes for steam boilers, steam pipelines and manifolds of plants with high and superhigh steam parameters of "10х9мфб-ш"-grade steel - Google Patents

Abstract

FIELD: metallurgy.

SUBSTANCE: proposed method comprises smelting of ingots by electroslag remelting, turning of ingots to billets, and boring 100±5 mm-diameter central opening. Said billets are heated to ductility temperature and pierced at helical rolling mill to get the sleeve billets. The latter are cooled down and repaired, if required. Said sleeve billets are reheated from cold-charged state to ductility temperature. Sleeve billets are pierced-rolled at helical rolling mill and rolled at Pilger mills. Process wastes are cut off by hot-cutting saw. Billets are hot treated, etched, straightened, subjected to ultrasound control and accepted.

EFFECT: higher quality of pipes and Pilger mill efficiency.

4 cl, 1 tbl

Description

The invention relates to pipe production, and in particular to a method for the production of seamless hot-rolled pipes of 530 × 25-60 mm in size for steam boilers, steam pipelines and manifolds of plants with high and supercritical parameters of steam from 10Kh9MFB-Sh steel, and can be used on a pipe rolling installation 8 -16 ″ with pilgrim mills in the production of commodity pipes of 530 × 31-60 mm in size and redistributing pipes of 550 × 45 and 550 × 48 mm in size from hollow ingots-blanks ESR for subsequent machining - turning and boring them into commodity tube size 530 × 25-30 mm.

In the practice of pipe production, there is a method of manufacturing boiler pipes of large and medium diameters from forged billets of steels of grades 20, 15GS, 15XM, 12X1MF, 15X1M1F, 12X2MFSR, 10X9MFB, 12X11V2MF, 08X16II9M2, 12X18N12T, and 10X13G12B2K2 with mechanical properties that include forging them into forgings (structure compaction) with a bobbin ≥2.5, machining the forgings into billets (turning with metal removal of 10-15 mm per side), drilling in billets of a central hole with a diameter of 100 ± 5 mm to remove the central face variation porosity and non-metallic inclusions, heating billets to ductility temperature, piercing billets in cross-screw mills into sleeves, rolling sleeves into pipes with a diameter of 245-550 mm on a pilgrim installation 8-16 ″ with a diameter tolerance of + 1.25 / -1 , 0 and wall thickness + 25 / -5% (TU 14-1-2560-78 ″ Forged pipe billet for boiler pipes ″, TU 14-3-460-2003 and TU 14-ZR-55-2001 ″ Seamless steel pipes for steam boilers and pipelines ″ and TU 14-3-420-75 ″ pipes for steam boilers and pipelines made of steel 15GS and 15XM1F ″).

The disadvantage of this method is the high energy intensity of the process associated with heating and deformation (forging) of the ingots into forgings, followed by turning and drilling of the central hole, heating the workpieces to a plasticity temperature, piercing and rolling them into pipes on pilgrim mills with a wall tolerance of + 20 / - 5%, increased consumption coefficient of the metal during the redistribution of the ingot - forging - billet - pipe and, as a result, the high cost of pipes, as well as the fact that this steel grade is included in TU 14-ЗР-55-2001, but pipes from it to this daytime was not made.

In pipe production, there is a known method for manufacturing large diameter gas lift pipes from 09G2S steel ingots for ESW and VDP smelting (Patent RU No. 2119395, Cl. V21V 19/04), where the ingots are deformed in the piercing mill along the crystals, setting the ingots in the mill with the head part, and stitched with a posad in diameter by the amount

D = 2S _G (1 - sin α) / S _C,

where S _G - wall thickness of the sleeve, mm;

S _C - wall thickness of the drilled ingot ESR, mm;

α is the angle of inclination of the crystallization front to the axis of the ingot, deg.

The disadvantage of this method of manufacturing large diameter pipes from ingots of ESR and VDP steel grade 09G2S is the need to manufacture macro templates to determine the angle of inclination of the crystallization front to the axis of the ingot, and the piercing of the ingots with shrink (head) part forward leads to the formation of defects in the form of internal captures at the front ends of the sleeves .

In pipe production, there is also known a method for the production of large diameter boiler pipes from ESR ingots (patent RU No. 2180874, Cl. B21B 19/04), which reduces energy consumption, reduces metal consumption and, as a result, reduces the cost of boiler pipes by using larger diameter ingots and conducting the firmware process with a posad in diameter equal to 8-16%.

The disadvantages of this method are that, due to the low power of the drive of the piercing mill of Ч ChTPZ ’, ESH ingots of 10Kh9MFB-Sh steel can not be stitched with a posad in diameter of 8-16%.

There is also known a method for the production of seamless hot-deformed pipes of large and medium diameters in tube rolling plants with pilgrim mills for steam boilers, steam pipelines and manifolds of plants with high and supercritical parameters of steam from electroslag remelting ingots and continuously cast billets (patent RU No. 232322314, Cl. V21V 19 / 04), which provides for the piercing of ESHP and NLZ ingots in cross-helical rolling mills with a diameter fit, depending on the grade of steel and the total hood for redistributing the electric ingot remelting -truba lacquer or continuously cast billet, tube, wherein the values posad diameter ingots electroslag remelting in piercing mills into helical rolling determined from the expression

= k _I'эшп μ_iΣ, $${\Delta }_{i\text{'}\text{'}\mathrm{uh}wP}$$

= k _I'ashp μ _i Σ,

where Δ _I'EShp are the values of posad sizes in diameter when piercing in transverse helical mills of ESR ingots of i-steel grade,%;

µ _i Σ = µ _pr µ _p - the total drawing coefficient when rolling pipes of the i-th size;

k _i'ashp is a coefficient that takes into account the size of the chuck in diameter when flashing sleeves from ESR ingots of i-steel grade,%;

µ _CR - the coefficient of extraction when piercing sleeves for rolling pipes of i-size;

µ _p is the drawing coefficient when rolling j-sized pipes on a pilgrim mill, while the coefficients k _i'.ashp for different grades vary from 24 to 40.

The disadvantage of this method is that. that it is very difficult to manufacture, because each pipe size requires its own ESR ingot sizes, this method applies to the production of seamless hot-deformed pipes of large and medium diameters in tube rolling plants with pilgrim mills made of carbon steel grades and does not provide for the production of boiler tubes from ESR ingots steel grade 10X9MFB-Sh.

In the pipe industry, there is also a known method for the production of hot-rolled conversion and commodity pipes of large and medium diameters from hard-to-deform steel grades and alloys in tube rolling plants with pilgrim mills (Patent RU No. 2278750, Cl. B21B 21/00), including turning of ESR ingots and forged billets, drilling a central hole with a diameter of 100 ± 5 mm, heating them to a plasticity temperature, flashing them with subsequent rolling in a cross-helical mill into sleeves and rolling the sleeves on a pilgrim mill in a hot-rolled front pipes or pipes with a relatively thick wall, with the first piercing of ESR ingots and forged billets in a cross-helical rolling mill with the bottom end forward, and the second piercing-rolling with the shrink end forward, the pipes are rolled on a pilgrim mill with diameter to the wall thickness D / S = 6.5-8.0 with a hood µ≤4.5.

The disadvantage of this method is that it includes heating the ESR ingots and billets to a temperature of ductility, flashing them in a cross-helical rolling mill into billet sleeves, reheating the billet blanks from a cold or hot embankment to a ductility temperature, flashing-rolling in the mill cross-helical rolling into sleeves with their subsequent rolling in a pilgrim mill to commodity or conversion pipes. Double heating leads to double burning of the metal, and the flashing of ESR ingots and billets into blanks, followed by rolling them into sleeves leads to a 2-fold loss in the performance of the pilgrim installation, and, consequently, to an increase in the cost of commodity and conversion pipes. This method extends to the production of seamless hot-deformed conversion and commodity pipes of large and medium diameters in tube-rolling plants with pilgrim mills from hard-to-deform grades of steel and alloys and does not provide for the production of boiler tubes from solid and hollow ingots of 10-H9MFB-Sh steel ESH.

The closest technical solution is the method of preparing billets for rolling commodity and conversion pipes of large and medium diameters from hard-to-deform grades of steel and alloys in pipe rolling plants with pilgrim mills (Patent RU No. 2340417, Cl. B21B 21/00), including the casting of hollow ingots-sleeves electroslag remelting, turning and boring them into hollow billets with metal removal, the value of which is determined from the expressions

Δ = K * D / S,

Δ ₁ = K ₁ * D / S.

where Δ is the magnitude of the removed metal layer during turning of hollow ingots-shells ESR. mm; Δ ₁ , is the value of the removed metal layer when boring hollow ingots-shells ESR. mm; D is the outer diameter of the hollow ingot blanks, mm; S is the wall thickness of the hollow ingots, sleeves, mm; K = 0.3-0.4 is a coefficient for determining the magnitude of the metal layer to be removed when turning ingot shells, large values of which relate to steels with a high content of alloying elements; K ₁ = 0.4-0.5 is the coefficient for determining the size of the metal layer to be removed when bore ingots-sleeves, large values of which relate to steels with a high content of alloying elements, and the bottom part of hollow ingots - ESR sleeves is removed by anodic-mechanical cutting, the value of which is determined from the expression

L = K ₂ * D / S,

where K ₂ = 15-20 is the coefficient for determining the magnitude of the removed bottom of the ingot shells, large values of which relate to steels with a high content of alloying elements.

The disadvantage of this method is that it is aimed at the technology of converting hollow ESR ingots into hollow ingots-blanks for the production of pipes from hardly deformable steel and alloy grades and does not solve the technological issues of the production of seamless pipes for steam boilers, steam pipelines and collectors of installations with high and supercritical parameters from steel grade 10X9MFB-Sh with a diameter of 530 mm and wall thicknesses from 25 to 60 mm.

Boiler pipes with a diameter of 530 mm with different wall thicknesses in Russia can be produced only on TPU 8-16 ″ with pilgrim mills.

Rolling pipes 530 × 25-30 mm in size on TPU 8-16 ″ with pilgrim mills is problematic due to the low temperature of 10Kh9MFB-Sh steel under a deformation of 1180-1200 ° C. For rolling pipes with a size of 530 × 25-30 mm, ESR ingots-blanks with a size of 630-650 × 100 × 1750 ± 50 mm are required, of which, on a cross-helical rolling mill, for inserting and rolling, we obtain sleeves of 650hvn size. 510 × 3900-4100 mm or hollow billet blanks measuring 660хвн.490х3200 ± 50, 660хвн.460х3200 ± 50 and 660хвн.430х3200 ± 50, mm in size. On the existing piercing mill of ChTPZ OJSC, you can get a sleeve no longer than 3600 mm, and set a sleeve no longer than 3500 mm into the pilgrim mill. The rolling time of a pipe measuring 530 × 25 mm from a sleeve with a length of 3500 mm and a wall thickness of 70 mm on a pilgrim mill is more than 4.0 minutes. For a given period of time, the sleeve tube cools below 800 ° C (at a recommended minimum of 850 ° C at the end of rolling). Rolling pipes 530 × 25-30 mm in size and rolling pilgrim heads made of 10Kh9MFB-Sh steel at temperatures below 850 ° C leads to increased loads on the pilgrim mill drive and tightening of mandrels. which in turn leads to breakage of the safety bolts and spindles of the pilgrim mill, reduced productivity due to the removal of mandrels due to puffs, replacement of safety bolts and spindles. To avoid tightening the mandrels, it is necessary to roll pipes on mandrels with a taper of 5-6 mm instead of the existing taper of 1.0 mm, and this will lead to a longitudinal difference, i.e. to increased rejection of pipes by wall thickness.

The objective of the proposed method (invention) is the development of the production of seamless pipes with a diameter of 530 mm for steam boilers, steam pipelines and manifolds of plants with high and supercritical steam parameters, with wall thicknesses from 25 to 60 mm, from hollow ingots-blanks of electroslag remelting of 660хvn. 340 × 2100 ± 50, 660хвн. 300 × 2100 ± 50 and 660хвн.200 × 2100 ± 50 from steel grade 10X9MFB-Sh, namely the production of commodity pipes of 530 × 31-60 mm in size and conversion tubes of 550 × 45 and 550 × 48 mm on TPU 8-16 ″ with pilgrim mills and the subsequent redistribution of conversion rub machining - turning and boring into commodity pipes measuring 530 × 25-30 mm with increased requirements for geometric dimensions and surface quality.

The technical result is achieved by the fact that in the known method for the production of seamless hot-rolled pipes of 530 × 25-60 mm in size for steam boilers, steam pipelines and manifolds of installations with high and supercritical parameters of steam from steel grade 10X9MFB-Ш, including ingots melting by electroslag remelting, machining turning ingots into ingot blanks, drilling a central hole with a diameter of 100 ± 5 mm in ingot ingots, heating the ingot blanks to ductility temperature, flashing them in a cross-helical mill rollers for blanks, cooling of blanks, repair of blanks if necessary, reheating of blanks from a cold seat to ductility temperature, piercing-rolling of blanks in a cross-helical rolling mill, sleeves for pilgrim mills into commodity pipes measuring 530 × 25-60 mm, heat treatment, etching, dressing, ultrasonic inspection and acceptance of pipes with a tolerance of + 1.25 / -1.0% in diameter and + 20 / -5.0% in wall thickness, pipes 530 × 25-30 mm in size are produced from hollow ingots of electroslag sizing VA, hollow ingots are turned and bored into hollow ingots-blanks of size 660хvn. 340 × 2100 ± 50, which are heated to a temperature of 1190-1200 ° С and stitched-rolled in a cross-helical rolling mill the size in size or with a diameter increase of no more 2.3% on a mandrel with a diameter of 475 mm in sleeves measuring 660-675hvn. 490 × 2950-3420 mm with an exhaust hood, respectively, from µ = 1.44 to µ = 1.59, which are rolled on TPU 8-16 ″ with pilgrim mills into pig tubes 550 × 45 × 6000-6400 and 550 × 48 × 5600-5900 mm with hoods, respectively, from µ = 2.03 to µ = 2.37 and a diameter override from 16.7 to 18.5%, with under by means of thermowells into the deformation zone m = 20-22 mm, process waste is cut off with a hot cutting saw, straightened on a six-roll straightening machine, heat treated, re-straightened on a six-straightened straightening machine with measuring the total curvature for pipe lengths not exceeding 5.0 mm, pipes 550 × 45 in size × 6000-6400 mm are turned and bored into commodity pipes of 530 × 25-28 × 6000-6400 mm in size, pipes of 550 × 48 × 5600-5900 mm are turned and bored into commodity pipes of 530 × 28-30 × 5600-5900 mm , commodity pipes with a diameter of 530 mm with wall thicknesses from 31 to 45 mm are produced at TPU 8-16 ″ with a pilgrim 660hvn.340 × 2100 ± 50 mm hollow mill ingots-blanks, which are heated to a temperature of 1190-1200 ° С and stitched-rolled in a cross-helical mill on mandrels with a diameter of 475 and 450 mm in sleeves 660-675hvn in size .490 × 2950-3420-660 - 675хвн. 465 × 2670-3070 with hoods, respectively, from μ = 1.30 to μ = 1.43, depending on the wall thickness of the commodity pipes, which are rolled on TPU 8-16 ″ s with pilgrim mills into commodity pipes measuring 530 × 31 × 7200-7500 - 530 × 45 × 6000-6200 mm with hoods from µ1 = 2.51 to µ = 3.46 and a diameter inlet from 19.7 to 21.5%, pipes with a diameter 530 mm with wall thickness from 46 to 60 mm are produced from hollow ingots-blanks of electroslag remelting with sizes of 660хvn. 300 × 2100 ± 50 and 660хvn. 200 × 2100 ± 50 mm, which are heated to a temperature of 1170-1190 ° С, and stitched - rolled in a mill transversely screw rolling on mandrels with a diameter of 450 and 425 mm into sleeves measuring 660-675hvn. 465 × 2950-3420 - 660-675hvn. 440 × 2670 - 3070 with hoods, respectively, from µ = 1.40 to µ = 1,59, which are rolled on TPU 8-16 ″ with pilgrim mills in commodity pipes measuring 530 × 46 × 6500-7100 - 530 × 60 × 6000-6300 mm with hoods from µ = 2.12 to µ = 2.76, depending on the wall thickness, and with a diameter of 19.7 up to 21.5%, they make a cut with a saw for hot cutting of technological waste - seed ends and pilgrim heads, heat treatment of pipes, etching, repair, ultrasonic testing, acceptance of pipes with a size of 530 × 25-30 mm is performed with a diameter tolerance of ± 1.0% and along the wall + 15 / -5.0%, and pipes measuring 530 × 31-60 mm with a tolerance in diameter of + 1.25 / -1.0% and along the wall ± 20 / -5.0%, hollow ingots of electroslag remelting is cast with a ratio of diameter to wall thickness D / S = 2.7-3.8, grind and bored into hollow ingots with a ratio of diameter to wall thickness D / S = 2.8 -4.2, more The higher values of which relate to hollow ingots and ingots-blanks for rolling conversion pipes with smaller wall thicknesses, machining - turning and boring of conversion pipes with dimensions of 550 × 45 and 550 × 48 mm into commodity pipes begins with thicker walls, namely 530 × 28 and 530 × 30 mm, and if there are defects or the order for this wall is closed, machining is performed on thinner walls, hollow ingots-billets are heated in a methodical furnace according to the following procedure: planting ingots-blanks on the grate of the furnace in batches of 6-8 pieces in one row with spacing ohm after 1.0-1.25 hours at a temperature in the third zone of the furnace 950-1000 ° C; aging ingots-blanks on grates without tilting for 1.0-1.25 hours; heating the ingot blanks at a speed of 1.9-2.0 ° C for 6.0-6.5 hours to a temperature of 1170-1200 ° C with uniform tilting of the ingot blanks along the pit of the furnace from the 22nd to the 6th window after 18-22 minutes at an angle of ≈ 210-230 °; holding at a temperature of 1170 - 1200 ° C for 0.5 - 0.75 hours with uniform tilting from the 6th to the 4th window in 15-20 minutes at an angle of ≈ 210-230 °; tilting from the 4th window to the furnace pit and delivery of ingot billets from the furnace with the temperature of the center of the ingot billets from 1170 to 1200 ° C.

Comparative analysis with the prototype shows that the inventive method for the production of seamless hot-rolled pipes of 530 × 25-60 mm in size for steam boilers, steam pipelines and manifolds of plants with high and supercritical steam parameters from 10Kh9MFB-Sh steel is different in that the pipes are 530 × 25 in size -30 mm is produced from hollow ingots of electroslag remelting, hollow ingots are grinded and bored into hollow ingots-blanks of size 660хvn. 340 × 2100 ± 50, which are heated to a temperature of 1190-1200 ° С and stitched - they are rolled in a cross-helical mill rolling size in size or with a rise in diameter of not more than 2.3% on a mandrel with a diameter of 475 mm in sleeves measuring 660-675hvn. 490 × 2950-3420 mm with a hood, respectively, from µ = 1.44 to µ = 1.59 which are rolled on TPU 8-16 ″ with pilgrim mills into pig tubes of 550 × 45 × 6000-6400 and 550 × 48 × 5600-5900 mm in size with hoods, respectively, from µ = 2.03 to µ = 2.37 and with a diameter of 16.7 to 18.5%, with feeds of sleeves into the deformation zone m = 20-22 mm, technological waste is cut with a hot cutting saw, straightened on a six-roll straightening machine, heat treated, re-fixed on the pole a straightening machine with measuring the total curvature for pipe lengths not exceeding 5.0 mm, pipes of size 550 × 45 × 6000-6400 mm are turned and bored into commodity pipes of size 530 × 25-28 × 6000-6400 mm, pipes of size 550 × 48 × 5600-5900 mm is grinded and bored into commodity pipes of 530 × 28-30 × 5600-5900 mm in size, commodity pipes with a diameter of 530 mm and wall thicknesses from 31 to 45 mm are produced on TPU 8-16 ″ with pilgrim mills from hollow ingots ESRs with a size of 660hvn. 340 × 2100 ± 50 mm, which are heated to a temperature of 1190-1200 ° C and stitched-rolled in a cross-helical rolling mill on a mandrel with a diameter of 475 and 450 mm in sleeves measuring 660-675hvn. 490 × 2950-3420-660 - 675hvn. 465 × 2670 - 3070 with hoods, respectively, from µ = 1.30 to µ = 1.43, depending on the wall thickness of the goods pipes, which rolled on a TPU 8-16 ″ with pilgrim mills into commodity pipes measuring 530 × 31 × 7200-7500 - 530 × 45 × 6000-6200 mm with hoods from µ = 2.51 to µ = 3.46 and a diameter setting of 19 , 7 to 21.5%, pipes with a diameter of 530 mm and wall thicknesses from 46 to 60 mm are produced from hollow ingots-blanks of electroslag remelting with sizes of 660хвн. 300 × 2100 ± 50 and 660хвн.200 × 2100 ± 50 mm, which are heated to a temperature 1170-1190 ° C, and flashing - ra they are rolled in a cross-rolling mill on mandrels with a diameter of 450 and 425 mm into sleeves of size 660-675hvn. 465 × 2950-3420 - 660-675hvn. 440 × 2670 - 3070 with hoods, respectively, from μ = 1.40 to μ = 1.59, which are rolled on TPU 8-16 ″ with pilgrim mills into commodity pipes measuring 530 × 46 × 6500-7100-530 × 60 × 6000-6300 mm with hoods from µ = 2.12 to µ = 2.76, depending on the wall thickness, and by seeding in diameter from 19.7 to 21.5%, a hot saw is cut by a cutting of technological waste - seed ends and pilgrim heads, pipe heat treatment, pickling, repair, ultrasonic control, acceptance of pipes with a size of 530 × 25-30 mm is performed with a tolerance of ± 1.0% in diameter and + 15 / -5.0% along the wall, and pipes with a size of 530 × 31-60 mm with a diameter tolerance of + 1.25 / -1.0% and along the wall + 20 / -5.0%, hollow ingots of electroslag remelting are cast with a ratio of diameter to wall thickness D / S = 2.7-3.8, grind and bored into hollow ingots with a ratio of diameter to wall thickness D / S = 2.8 -4.2, large values of which relate to hollow ingots and ingots - billets for rolling conversion tubes with smaller wall thicknesses, machining, turning and boring before of 550 mm × 45 mm and 550 mm × 48 mm pipes to the product ones begin with thicker walls, namely 530 × 28 and 530 × 30 mm, and if there are defects or the order for this wall is closed, machining is performed on thinner walls, hollow ingots - billets are heated in a methodical furnace according to the following regime: planting ingot billets on the furnace grates in batches of 6-8 pieces in a row with an interval of 1.0-1.25 hours at a temperature in the third zone of the furnace 950-1000 ° C; aging ingots-blanks on grates without tilting for 1.0-1.25 hours; heating the ingot blanks at a speed of 1.9-2.0 ° C for 6.0-6.5 hours to a temperature of 1170-1200 ° C with uniform tilting of the ingot blanks along the pit of the furnace from the 22nd to the 6th window after 18-22 minutes at an angle of ≈ 210-230 °; holding at a temperature of 1170 - 1200 ° C for 0.5 - 0.75 hours with uniform tilting from the 6th to the 4th window in 15-20 minutes at an angle of ≈ 210-230 °; tilting from the 4th window to the furnace pit and delivery of ingot billets from the furnace with the temperature of the center of the ingot billets from 1170 to 1200 ° C.

Comparison of the proposed method not only with the prototype, but also with other technical solutions in the art did not allow them to identify signs that distinguish the claimed method from the prototype, which corresponds to patentability ″ inventive step ″.

The proposed method for the production of seamless hot-rolled pipes of 530 × 25-60 mm in size for steam boilers, steam pipelines and manifolds of plants with high and supercritical steam parameters from 10Kh9MFB-Sh steel is that pipes of 530 × 25-30 mm in size are made from hollow ingots electroslag remelting, hollow ingots are turned and bored into hollow ingots-blanks of size 660хvn. 340 × 2100 ± 50, which are heated to a temperature of 1190-1200 ° С and stitched - rolled in a cross-screw rolling mill the size to the size or with a rise in diameter ru no more than 2.3% on a mandrel with a diameter of 475 mm in sleeves measuring 660-675hvn. 490 × 2950-3420 mm with a hood, respectively, from µ = 1.44 to µ = 1.59, which are rolled on a TPU 8-16 ″ s with pilgrim mills into pig tubes of 550 × 45 × 6000-6400 and 550 × 48 × 5600-5900 mm in size with hoods from µ = 2.03 to µ = 2.37, respectively, and diameter fittings from 16.7 to 18.5% , with feeds of sleeves into the deformation zone m = 20-22 mm, technological waste is cut off with a hot cutting saw, straightened on a six-roll straightening machine, heat treated, re-straightened on a six-straighted straightening machine with measurement of the general curvature on the length of the pipes is not more than 5.0 mm, the pipes of size 550 × 45 × 6000-6400 mm are turned and bored into commodity pipes of the size 530 × 25-28 × 6000 - 6400 mm; the pipes of size 550 × 48 × 5600-5900 mm are turned and bored into commodity pipes with a size of 530 × 28-30 × 5600-5900 mm, commodity pipes with a diameter of 530 mm and wall thicknesses from 31 to 45 mm are produced at TPU 8-16 ″ with pilgrim mills from hollow ingot blanks EShP measuring 660 × Hv. 340 × 2100 ± 50 mm. which are heated to a temperature of 1190-1200 ° C and stitched-rolled in a cross-screw mill on mandrels with a diameter of 475 and 450 mm in sleeves of size 660-675hvn. 490 × 2950-3420-660 - 675hvn. 465 × 2670 - 3070 with hoods , respectively, from µ = 1.30 to µ = 1.43. depending on the wall thickness of the commodity pipes, which are rolled at TPU 8-16 ″ with pilgrim mills into commodity pipes of size 530 × 31 × 7200-7500 - 530 × 45 × 6000-6200 mm with hoods from µ = 2.51 to µ = 3.46 and with a pitch of 19.7 to 21.5% in diameter, pipes with a diameter of 530 mm and wall thicknesses of 46 to 60 mm are made from hollow ingots-blanks of electroslag remelting with sizes of 660хvn. 300 × 2100 ± 50 and 660хvn. 200 × 2100 ± 50 mm, which are heated to a temperature of 1170-1190 ° C, and stitched-rolled in a cross-screw mill on mandrels with a diameter of 450 and 425 mm in sleeves of size 660 - 675хвн. 465 × 2950 - 3420 - 66 0 - 675hvn. 440 × 2670 - 3070 with hoods, respectively, from µ = 1.40 to µ = 1.59, which are rolled on TPU 8 - 16 ″ with pilgrim mills into commodity pipes measuring 530 × 46 × 6500-7100 - 530 × 60 × 6000-6300 mm with hoods from µ = 2.12 to µ = 2.76, depending on the wall thickness, and by seeding in diameter from 19.7 to 21.5%, a hot saw is made for cutting technological waste - seed ends and pilgrim heads, heat treatment of pipes, etching, repair, ultrasonic testing, acceptance of pipes of 530x25-30 mm in size is carried out with a tolerance of ± 1.0% in diameter and + 15 / -5.0% in wall and pipe sizes 530 × 31-60 mm with a tolerance in diameter of ± 1.25 / -1.0% and on the wall of ± 20 / -5.0%, hollow ingots of electroslag remelting are cast with a ratio of diameter to wall thickness D / S = 2.7-3 ,8. grind and bore into hollow ingots-billets with a diameter to wall thickness ratio of D / S = 2.8 -4.2, large values of which relate to hollow ingots and ingots-billets for rolling pig tubes with smaller wall thicknesses, machining - turning and boring of conversion pipes 550 × 45 and 550 × 48 mm in size to the goods pipes begins with thicker walls, namely 530 × 28 and 530 × 30 mm, and if there are defects or the order for this wall is closed, machining is performed on thinner walls, hollow ingots preforms are heated in a methodical Oh furnace according to the regime: planting ingot blanks on the furnace grates in batches of 6-8 pieces in a row with an interval of 1.0-1.25 hours at a temperature in the third zone of the furnace 950-1000 ° C; aging ingots-blanks on grates without tilting for 1.0-1.25 hours; heating ingots - billets at a speed of 1.9 - 2.0 ° C for 6.0 - 6.5 hours to a temperature of 1170 - 1200 ° C with uniform tilting of ingots-billets along the pit of the furnace from the 22nd to the 6th window after 18-22 minutes at an angle of ≈ 210-230 °; holding at a temperature of 1170 - 1200 ° C for 0.5 - 0.75 hours with uniform tilting from the 6th to the 4th window in 15-20 minutes at an angle of ≈ 210-230 °; tilting from the 4th window to the furnace pit and delivery of ingot billets from the furnace with the temperature of the center of the ingot billets from 1170 to 1200 ° C.

Commodity pipes of 530x35 size and conversion ones of 550 × 45 mm were rolled from 10Kh9MFB-Sh steel at 8-16 TPU with pilgrim mills from hollow ingot blanks EShP measuring 660хvn. 340 × 2100 ± 50. The mechanical processing of hot-rolled pig-sized pipes of 550 × 45 mm in size into commodity pipes of 530 × 25-28 mm in size was performed at the section for processing billets and special-purpose pipes of ChTPZ OJSC. Data on rolling conversion pipes of 550 × 45 mm in size and commodity pipes of 530 × 35 mm in size from hollow billet-blanks EShP steel grade 10X9MFB-Ш on TPU 8-16 ″ with pilgrim mills, machining - turning and boring of conversion pipes of size 550 × 45 mm into commodity pipes of 530 × 25-28 mm in size and the results of delivery are shown in Table 1. For comparison, table 1 shows the data on rolling of conversion pipes of 550 × 45 mm in size and commodity pipes of 530 × 35 mm in size from ingots - ESR blanks. From table 1 it can be seen that for the production of pig tubes with a size of 550 × 45 mm, 5 hollow ingots-blanks ESRs of 660 × 340 × 2100 ± 50 sizes supplied by OAO ZMZ were used. The hollow ingot blanks of ESRs with a size of 660 × Hv. 340 × 2100 ± 50 mm were heated to a temperature of 1190-1200 ° C, which were stitched — rolled in a cross-helical mill on a mandrel with a diameter of 475 mm in sleeves of size 660 × 490 × 3260-3420 mm and rolled at TPU 8-16 ″ into pig tubes of 550 × 45 × 6000-6400 mm in size, and five hollow ingot blanks EShBs of size 660хвн. 340 × 2100 ± 50 mm into commodity pipes of 530 × 35 mm in accordance with paragraphs .1 and 2 claims. Hollow ingots-blanks for rolling conversion pipes were planted in a methodical furnace and heated in accordance with paragraphs 1 and 4 of the claims to a temperature of 1190-1200 ° C. Hollow ingots-blanks with a total mass of 20.720 tons were stitched-rolled in a piercing mill and rolled on a pilgrim mill in redox pipes of 550 × 45 × 6000-6400 mm in size with a hood µ = 2.24. compression in diameter Δ = 16.7% and feed the sleeves in the deformation zone m = 20-22 mm The total hood on piercing and pilgrim mills µ _Σ was 3.56. Technological waste - pilgrim heads and seed ends were cut off from pipes on a hot cutting saw. The pipes were straightened on a six-roll straightening machine, heat-treated, re-straightened with a curvature measurement of not more than 5.0 mm for the total length, transferred to the section for processing forgings and pipes for special purposes. The pipes were turned and bored into commodity pipes measuring 530 × 27-28 × 5800-6200 mm in accordance with paragraph 3 of the claims. After mechanical processing were obtained: 3 pipes with a size of 530 × 27 × 6000-6200 and 2 pipes with a size of 530 × 22 × 5800-6200 mm, which were accepted with a tolerance of ± 1.0% in diameter and + 15 / -5 on the wall, 0 total weight 10.972 tons (in accordance with claim 1 of the claims). The expenditure coefficient of the metal in the pipes of this batch amounted to 1,889. For comparison, this pipe size was rolled according to the classical scheme from drilled ESR ingots-blanks measuring 630 × 100 × 1750 ± 50 mm with double heating, piercing, rolling-rolling and rolling on a pilgrim mill. The expenditure coefficient of the metal was 2.207. Commodity pipes with a size of 530 × 35 mm were produced from hollow ingots-blanks ESR measuring 660 × 340 × 2100 ± 50 mm. Five hollow ESR ingots-blanks with a total weight of 20.5230 tons were set into production, which were heated in a methodical furnace to a temperature of 1190-1200 ° C, stitched - rolled out in a piercing mill and rolled on a pilgrim mill to 530 × 35 × tubes 7800-8200 mm with a hood µ = 2.62 and compression in diameter Δ = 19.7%. The total hood on the piercing and pilgrim mills was 4.48. Technological waste was cut off from the pipes on a hot cutting saw, then the pipes were heat treated, pickled, repaired (if necessary), passed ultrasonic testing and adopted in accordance with TU 14-3R-55-2001 with a diameter tolerance of ± 1.0%, and along the wall ± 20 / -5%. It was adopted 5 pipes measuring 530 × 35 × 7050-7300 mm with a total weight of 17.616 tons. The expenditure coefficient of the metal in the pipes of this batch was 1.165. For comparison, 5 ESR ingots-blanks with a size of 630 × 100 × 1750 ± 50 mm with a total weight of 20.878 tons were put into production, which were heated twice, stitched into blanks, stitched - rolled into sleeves and rolled into commodity ones on a pilgrim mill pipes measuring 530 × 35 mm. In accordance with TU 14-3R-55-2001, 5 pipes with a total weight of 16.319 tons were adopted. The expenditure coefficient of the metal in the pipes of this batch was 1.279. The reduction in the expenditure coefficient of the metal during rolling of steel tubes of size 550 × 45 mm by the proposed technology, compared to the existing one, amounted to 318 kg, and when rolling commodity pipes of 530 × 35 mm in size - 114 kg per ton of pipe.

Thus, the use of the proposed method will allow for the first time in Russia to produce seamless hot-rolled pipes of 530x25-60 mm in size from hollow ingot blanks EShP steel grade 10X9MFB-Sh for steam boilers, steam pipelines and manifolds of plants with high and supercritical steam parameters with mechanical properties of the metal and the geometric dimensions of the pipes exceeding the values of these indicators given in TU 14-3R-55-2001, which will significantly reduce energy costs by eliminating the heating of ingot ingots for flashing, exceptions from the technological process of flashing ingots-blanks into blanks-blanks, to produce high-quality commodity and conversion pipes at TPU8-16 ″ with pilgrim mills of ITGO OJSC for subsequent conversion of conversion pipes into commodity machining - turning and boring with smaller allowances , reduce metal consumption during the redistribution of hollow ingots-blanks ESR into commodity and conversion pipes, increase the productivity of TPU 8-16 ″ with pilgrim mills, and therefore, reduce the cost of boiler pipes from hoists of grade 10X9MFB-Sh.

Claims (4)

1. Method for the production of seamless hot-rolled pipes 530 × 25-60 mm in size for steam boilers, steam pipelines and manifolds of plants with high and supercritical steam parameters from 10Kh9MFB-Sh steel, including ingots melting by electroslag remelting (ESR), machining - turning of ingots into ingot blanks, drilling in ingot blanks of a central hole with a diameter of 100 ± 5 mm, heating ingot blanks to a temperature of plasticity, piercing them in a cross-screw rolling mill into blanks, cooling of blanks ok, repair of sleeve blanks, if necessary, reheating of sleeve blanks from a cold embankment to a plasticity temperature, flashing-rolling of sleeve blanks in a cross-helical rolling mill into sleeves, rolling of the sleeves on pilgrim mills, cutting with a hot-cutting technological waste saw, thermal pipe processing, etching, straightening, ultrasonic inspection and acceptance of commodity pipes, characterized in that commodity pipes of 530 × 25-30 mm in size are produced from hollow ESR ingots, which are turned and bored into hollow ingots 660hvn. 340 × 2100 ± 50 in size, which are then heated to a temperature of 1190-1200 ° C and stitched-rolled in a cross-screw mill in size or with a diameter rise of not more than 2.3% on a mandrel with a diameter of 475 mm in sleeves measuring 660-675hvn. 490 × 2950-3420 mm with a hood, respectively, from µ = 1.44 to µ = 1.59, which are rolled on TPU 8-16 ″ with pilgrim mills into redistribution pipes of 550 × 45 × 6000- 6400 and 550 × 48 × 5600-5900 mm with hoods, respectively, from μ = 2.03 to μ = 2.37 and diameter fit from 16.7 to 18.5%, with the feed of sleeves into the deformation zone m = 20 -22 mm, cut off technologically e waste with a hot cutting saw, straighten on a six-roll straightening machine, carry out heat treatment and re-straighten on a six-roll straightening machine with measuring the total curvature for pipe lengths not more than 5.0 mm, and pipes with dimensions of 550 × 45 × 6000-6400 mm are grinded and bored into commodity pipes of 530 × 25-28 × 6000-6400 mm in size, and pipes of 550 × 48 × 5600-5900 mm in size are turned and bored into commodity pipes of 530 × 28-30 × 5600-5900 mm in size, while commodity pipes with a diameter of 530x31 -45 mm is produced on TPU 8-16 ″ with pilgrim mills from the aforementioned hollow ingots-blanks E ШП 660хвн. 340 × 2100 ± 50 mm in size, which are heated to a temperature of 1190-1200 ° С and stitched-rolled in a cross-screw mill on mandrels with a diameter of 475 and 450 mm in sleeves of a size of 660-675хвн.490 × 2950-3420- 660-675hvn. 465 × 2670-3070 with hoods, respectively, from µ = 1.30 to µ = 1.43, depending on the wall thickness of the commodity pipes, which are rolled on TPU 8-16 ″ with pilgrim mills into commodity pipes of size 530 × 31 × 7200-7500-530 × 45 × 6000-6200 mm with hoods from μ = 2.51 to μ = 3.46 and a diameter of 19.7 to 21.5% in diameter, and commodity pipes with a diameter of 530x46- 60 mm are produced from hollow ingots-billets ESH 660hvn. 300 × 2100 ± 50 and 660hvn.200 × 2100 ± 50 mm in size, which are heated to a temperature of 1170-1190 ° C, and stitched-rolled in a cross-screw mill on mandrels with a diameter of 450 and 425 mm in sleeves of size 660- 675hvn. 465 × 2950-3420-660-675hvn.440 × 2670-3070 with hoods, respectively, from μ = 1.40 to μ = 1.59, which are rolled on TPU 8-16 ″ with pilgrim mills into commodity pipes of size 530 × 46 × 6500-7100-530 × 60 × 6000-6300 mm with hoods from µ = 2.12 to µ = 2.76, depending on the wall thickness, and a fit in diameter from 19.7 to 21.5% , while the acceptance of commodity pipes measuring 530 × 25-30 mm is made with a tolerance of meter ± 1.0% and the wall + 15 / -5.0%, and commodity pipes measuring 530 × 31-60 mm with a diameter tolerance of + 1.25 / -1.0% and the wall + 20 / -5 , 0%. 2. The method according to claim 1, characterized in that the hollow ingots of electroslag remelting are cast with a diameter to wall thickness ratio of D / S = 2.7-3.8, grind and bored into hollow ingots with a diameter to wall thickness ratio of D / S = 2.8-4.2, large values of which relate to hollow ingots and ingot billets for rolling conversion pipes with smaller wall thicknesses. 3. The method according to claim 1, characterized in that the machining - turning and boring of the conversion pipes of 550 × 45 and 550 × 48 mm in size begins with thicker walls, namely 530 × 28 and 530 × 30 mm, and when defects or closing an order for a given wall, machining is performed on thinner walls. 4. The method according to claim 1, characterized in that the heating of the hollow ingots-billets is carried out in a methodical furnace according to the mode:
- planting ingot billets on the furnace grates in batches of 6-8 pieces in a row with an interval of 1.0-1.25 hours at a temperature in the third zone of the furnace 950-1000 ° C;
- exposure of ingot blanks to grates without tilting for 1.0-1.25 hours;
- heating the ingot blanks at a speed of 1.9-2.0 ° C for 6.0-6.5 hours to a temperature of 1170-1200 ° C with uniform tilting of the ingot blanks along the pit of the furnace from 22nd to 6th a window in 18-22 minutes at an angle = 210-230 °;
- exposure at a temperature of 1170-1200 ° C for 0.5-0.75 hours with uniform pitching from the 6th to the 4th window in 15-20 minutes at an angle = 210-230 °;
- tilting from the 4th window to the furnace pit and delivery of ingot-blanks from the furnace with a center temperature of ingot-blanks of 1170-1200 ° С.