CN100482994C - N80-1 external thickening oil pipe and its production - Google Patents
N80-1 external thickening oil pipe and its production Download PDFInfo
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- CN100482994C CN100482994C CNB2005100302962A CN200510030296A CN100482994C CN 100482994 C CN100482994 C CN 100482994C CN B2005100302962 A CNB2005100302962 A CN B2005100302962A CN 200510030296 A CN200510030296 A CN 200510030296A CN 100482994 C CN100482994 C CN 100482994C
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- upset tubing
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Abstract
An N 80-1 external thickened oil pipe comprises the following chemical compositions (wt%) C 0.32-0.42, Si 0.20-0.70, Mn 1.20-1.65, V 0.05-0.20, N 0.010-0.025, the rest are Fe and the unavoidable impurity. Its manufacturing method includes the following steps: heating pipe billet, perforating, continuous rolling steel pipes; reheating to 960-990 deg. C temp., stretch reducing and after that the pipe temp. greater than or equal to 850 deg. C; cooling and the cooling velocity 30-100 deg.C/min; thickening both ends of the pipe and heating to 950-1170 deg. C temp.; heating time less than or equal to 20 seconds; air cooling and screw-cutting at both ends of the pipe.
Description
Technical field
The present invention relates to the manufacturing of external upset tubing product.
Background technique
The N80-1 external upset tubing is grade of steel and the product of stipulating in the API API SPEC 5CT standard, and its Chemical composition only has regulation to sulphur, phosphorus content, and other composition is determined that by manufacturer mechanical property requires to see Table 1.
The requirement of table 1:N80-1 oil pipe mechanical property
Oil pipe has two kinds of non-upset tubing and external upset tubings, and its difference is whether the pipe two ends thicken.
Traditional N80-1 external upset tubing production technology is:
Heating → stretch reducing → air-cooled → pipe two ends thickening → modified the heat treatment of heating of pipe blank → perforation → mandrel mill-rolled steel pipe → again or the normalized treatment → pipe TBE → end guard ring on box cupling → internal and external threads of screwing on.Its processing parameter is conventional general process parameter.
The N80-1 non-upset tubing adopts identical material with external upset tubing in same producer, the material of N80-1 oil pipe is general to adopt two types, a kind of is carbon manganese structural steel, and non-upset tubing and external upset tubing all adopt the modified heat treatment of shrend, and external upset tubing carries out the shrend quenching with Subsequent tempering after thickening; Another kind is a manganese molybdenum alloy structural steel, and non-upset tubing and external upset tubing all adopt normalized treatment, and external upset tubing carries out the total length normalized treatment after thickening.
The Chemical composition of N80-1 oil pipe manufacturer sees the following form 2 both at home and abroad.
The Chemical composition of table 2:N80-1 external upset tubing manufacturer
Because the N80-1 non-upset tubing must adopt modified heat treatment of shrend or normalized treatment, could satisfy the requirement of N80-1 grade of steel, therefore, concerning the N80-1 external upset tubing, adopt modified heat treatment of shrend or normalized treatment also to belong to normally.If the N80-1 non-upset tubing adopts middle carbon microalloy pearlitic steel production, body hot rolling state property can reach N80-1 grade of steel regulation, so, as long as control the performance of upset end well, the N80-1 external upset tubing just might reach the regulation of N80-1 grade of steel without any heat treatment.This existing just technology is not enough and need improved place.
Patent retrieval shows: the patent report that does not carry out normalized treatment behind the N80-1 oil pipe end upsetting is not arranged as yet.
Summary of the invention
The object of the present invention is to provide a kind of N80-1 external upset tubing and manufacture method thereof, its body adopts middle carbon microalloy pearlitic steel production, the hot rolling state property can reach N80-1 grade of steel regulation, by strictness control process for upsetting, reduce the thickening temperature, shorten heating time, improve the upset end performance with this, thereby save the total length normalized treatment after the thickening, reach energy saving, reduce production costs, increase economic benefit, improve the purpose of product competitive ability.
For achieving the above object, technological scheme of the present invention is,
A kind of N80-1 external upset tubing, its Chemical composition mass percent is:
C 0.32~0.42
Si 0.20~0.70
Mn 1.20~1.65
V 0.05~0.20
N 0.010~0.025
All the other are Fe and unavoidable impurities.
C:0.32~0.42%, C decision ferrite and pearlitic ratio, therefore, and the aggregate level of decision product obdurability, along with the increase of C content, the intensity of steel improves, and toughness descends.
Mn:1.20~1.65%, Mn increases content of pearlite in alloy, reduces the pearlite formation temperature, refine pearlite sheet spacing, therefore Mn can improve the intensity and the toughness of steel simultaneously, when Mn surpasses 1.60%, is easy to generate bainite structure, can reduce toughness on the contrary, therefore, to the last existence certain limitation of Mn.Because the deficiency of N80-1 ferrite+pearlite type non-hardened and tempered steel is that toughness is lower, therefore, C and Mn's is reasonably combined extremely important, and principle should be that Mn is high as far as possible under the prerequisite that does not produce bainite, and C forces down under the enough prerequisite of intensity as far as possible.
Si:0.20~0.70%, solid solution is in ferrite, can reinforced ferrite, when content 0.15~0.70% the time, do not reduce the toughness of steel, be to improve intensity, the content that suitably improves Si is necessary.
V:0.05~0.20%, V form carbon nitrogen vfanadium compound in steel, hinder austenite crystal during heating and grow up, and during cooling, form the tiny carbon nitrogen vfanadium compound particle of disperse shape and separate out, and play the effect of precipitation strength.V solid solubility temperature in austenite is lower, and solid solution is in austenite fully for V in the time of 1100 ℃, and therefore, V only plays crystal grain thinning when heating below 1100 ℃.But V of solid solution is in hot working and cooling procedure subsequently to have only those, and the carbon nitrogen vfanadium compound that precipitation is separated out could play the pinning effect to strained austenite grain boundary, subgrain boundary, deformation band, thereby postpones austenite crystal crystallization and growing up subsequently again.Because V solid solution fully and separates out in cooling procedure subsequently in austenite, so the precipitation strength effect of V is very obvious.
N:0.010~0.025%, N form nitride and carbonitride in steel, and exist with tiny particle, stop austenite crystal to be grown up, and crystal grain thinning produces dispersion-strengthened effect simultaneously, contains in the V steel and adds N, and its precipitation strength effect obviously improves.But DeGrain when content is too low can form big nitride inclusion when too high.
N80-1 external upset tubing manufacture method of the present invention comprises the steps:
A) heating of pipe blank, perforation, mandrel mill-rolled steel pipe;
B) heating, stretch reducing, heating-up temperature more again: 960~990 ℃, tube temperature should 〉=850 ℃ behind the stretch reducing;
C) cooling, the type of cooling: air-cooled, 30~100 ℃/min of rate of cooling;
D) pipe two ends thickening, heating-up temperature: 950~1170 ℃; Heating time≤20 second add the heating of thermal recovery Medium frequency induction coil device; Air cooling;
Also comprise step e, pipe TBE, the end subsequent handling such as guard ring on box cupling, the internal and external threads of screwing on.
It is identical with conventional general technical requirements that the process engineering of other each operation requires.
The difference of the present invention and prior art
1. chemical composition design difference
The prior art chemical composition design is carbon manganese structural steel or manganese molybdenum alloy structural steel;
What the present invention adopted is middle carbon microalloy pearlitic steel, has added microalloy element V:0.05~0.20% on the basis of medium carbon manganese steel, N:0.010~0.025%.
2. production technology difference
The mechanical property of prior art hot rolling attitude does not reach N80-1 grade of steel regulation, must carry out total length normalized treatment or shrend quenching with Subsequent tempering behind the end upsetting;
The mechanical property of hot rolling attitude of the present invention has reached N80-1 grade of steel regulation, does not carry out normalized treatment behind the end upsetting.
3. end upsetting heating-up temperature difference
Prior art pipe end maximum heating temperature can reach 1200-1280 ℃;
Pipe end maximum heating temperature of the present invention≤1170 ℃ is to prevent austenite crystal alligatoring at high temperature.
4. end upsetting difference heating time
The prior art pipe end is looked heating plant heating time and is determined that excursion is big;
At high temperature grow up to prevent austenite crystal in pipe end of the present invention heating time≤20 second.
5. pipe end heating plant difference
Prior art pipe end heating plant can be the seam formula oven with the coal gas heating, perhaps electrically heated Medium frequency induction coil heats stove;
Employing Medium frequency induction coil heats stove required in this invention could shorten heating time like this, realizes rapid heating.
Beneficial effect of the present invention
Technology of the present invention can be saved the total length normalized treatment after the thickening, reaches energy saving, reduces production costs, increases economic benefit, improves the product competitive ability effect.In addition, to there not being the not enough oil pipe manufacturer of normalizing heat treatment installation or normalizing heat treatment installation throughput that the possibility of producing external upset tubing is provided.
Embodiment
Now illustrate, referring to table 3 with 73.02 * 5.51 N80-1 external upset tubings.Mechanical property is referring to table 4.
Table 3
Table 4: mechanical property, grain size, ballistic work
| Embodiment | Pipe end heating-up temperature ℃ | Yield strength Mpa | Tensile strength Mpa | Elongation percentage % | The grain size level | Vertical Charpy-V impact power J |
| 1 | 1050 | 584 | 812 | 25 | 7.5 | 39 |
| 2 | 1135 | 605 | 857 | 24 | 7.5 | 32 |
| 3 | 982 | 665 | 895 | 22 | 7.0 | 28 |
| 4 | 1170 | 590 | 835 | 25 | 7.5 | 35 |
| 5 | 1020 | 627 | 874 | 23 | 7.5 | 30 |
| 6 | 950 | 584 | 824 | 24 | 7.5 | 32 |
| 7 | 1100 | 561 | 805 | 26 | 7.5 | 39 |
| 8 | 1095 | 603 | 835 | 23 | 7.0 | 30 |
| 9 | 1150 | 705 | 946 | 19 | 7.5 | 22 |
Claims (2)
1. the manufacture method of N80-1 external upset tubing, the Chemical composition mass percent of this external upset tubing is:
C 0.32~0.42
Si 0.20~0.70
Mn 1.20~1.65
V 0.05~0.20
N 0.010~0.025
All the other are Fe and unavoidable impurities, and this manufacture method comprises the steps:
A) heating of pipe blank, perforation, mandrel mill-rolled steel pipe;
B) heating, stretch reducing, heating-up temperature more again: 960~990 ℃, tube temperature should 〉=850 ℃ behind the stretch reducing;
C) cooling, the type of cooling: air-cooled, 30~100 ℃/min of rate of cooling;
D) pipe two ends thickening, heating-up temperature: 950~1170 ℃, heating time≤20 second add the heating of thermal recovery Medium frequency induction coil device, air cooling.
2. the manufacture method of N80-1 external upset tubing as claimed in claim 1 is characterized in that, also comprises step e, and this step e comprises operation: pipe TBE, the end guard ring on box cupling and the internal and external threads of screwing on.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CNB2005100302962A CN100482994C (en) | 2005-09-30 | 2005-09-30 | N80-1 external thickening oil pipe and its production |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CNB2005100302962A CN100482994C (en) | 2005-09-30 | 2005-09-30 | N80-1 external thickening oil pipe and its production |
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| Publication Number | Publication Date |
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| CN1940368A CN1940368A (en) | 2007-04-04 |
| CN100482994C true CN100482994C (en) | 2009-04-29 |
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| CNB2005100302962A Active CN100482994C (en) | 2005-09-30 | 2005-09-30 | N80-1 external thickening oil pipe and its production |
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Families Citing this family (3)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN107557700A (en) * | 2017-08-30 | 2018-01-09 | 达力普石油专用管有限公司 | A kind of N80 steel level oil bushings and preparation method thereof |
| CN109234627B (en) * | 2018-10-17 | 2020-12-18 | 南京钢铁股份有限公司 | High-strength high-toughness non-quenched and tempered round steel and preparation method thereof |
| CN112143965B (en) * | 2019-06-28 | 2022-06-28 | 宝山钢铁股份有限公司 | Non-quenched and tempered oil casing pipe and manufacturing method thereof |
-
2005
- 2005-09-30 CN CNB2005100302962A patent/CN100482994C/en active Active
Non-Patent Citations (2)
| Title |
|---|
| 微合金非调质钢的研制、应用及其发展趋势. 何孝渝,王全安,陈设,傅忠敏,胡琳.拖拉机,第3期. 1991 * |
| 非调质钢N80级油井管的研制与开发. 胡严政,黄涛,张军,崔润炯.钢管,第33卷第2期. 2001 * |
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