CN101144141A - Steel for high-strength 13Cr oil sleeve and manufacturing method thereof - Google Patents

Steel for high-strength 13Cr oil sleeve and manufacturing method thereof Download PDF

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CN101144141A
CN101144141A CNA2006100310662A CN200610031066A CN101144141A CN 101144141 A CN101144141 A CN 101144141A CN A2006100310662 A CNA2006100310662 A CN A2006100310662A CN 200610031066 A CN200610031066 A CN 200610031066A CN 101144141 A CN101144141 A CN 101144141A
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steel
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110ksi
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corrosion
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CN100507058C (en
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张忠铧
徐文亮
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Baoshan Iron and Steel Co Ltd
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Abstract

The present invention provides well tube steel with 110 ksi high steel grade and high CO <SUB> 2 </SUB> corrosion resistance and the manufacture method thereof. The present invention takes the PI L80-13 Cr well tube alloy design as the basis, and through the compound adding of a small amount of alloying elements of nickel, molybdenum, and vanadium, not only the well tube with the intensity level of up to 110 steel grade can be obtained, but also the tempering temperature of the steel is increased, and the low temperature impact toughness of the steel is obviously improved because of the compound adding of the nickel, the molybdenum, and the vanadium. Moreover, in the alloy design of the present invention, the well tube with CO <SUB> 2 </SUB> corrosion resistance and chloride ion corrosion resistance under the condition of 120-150 DEG C and the intensity of up to 110 steel grade is obtained through controlling certain carbon content, adding the elements of chromium, nickel, molybdenum, and vanadium, etc. and appropriate heat treatment, and compared with the current low carbon nickel and molybdenum series well tube material with 110 steel grade, the well tube steel with 110 ksi high steel grade and high CO <SUB> 2 </SUB> corrosion resistance of the present invention can save 3-4 percent nickel, 1-2 percent molybdenum and appropriate amount of copper, thereby greatly reducing the alloy cost. The well tube steel with 110 ksi high steel grade and high CO <SUB> 2 </SUB> corrosion resistance of the present invention can be widely applied to situations requiring corrosion resistance such as well tubes, etc.

Description

A kind of steel for high-strength 13 Cr oil sleeve and manufacture method thereof
Technical field
The present invention relates to the high grade of steel high temperature resistance of a kind of 110ksi (120-150 ℃), high anti-CO 2, steel for oil well pipes and manufacture method thereof under the chloride ion corrosion condition.
Background technology
Along with the increasing of China's oil construction of natural gas fields dynamics, oil well casing and the oil pipe of gathering oil gas is faced with High Temperature High Pressure, height contains CO 2, coexistence such as Cl-strong corrosive environment, thereby cause oil-gas field that the down-hole oil tube fracture repeatedly takes place, the gas collecting main leakage accident causes many oil-gas field wells all going into operation about 1 year because this type of problem and scrapping in advance brings about great losses.
At first, CO 2Corrosion to oil pipe is the problem that often runs in the oil gas well production process.Both at home and abroad in broad research CO 2On the basis to mechanism of corrosion, feature and the influence factor of oil pipe, prediction CO has been proposed 2The various numerical simulation calculation methods of tube corrosion speed under the corrosive environment have formed use non-corrosive metal tubing, coated layer tubing, have injected serial aseptic technics such as inhibiter, galvanic protection.Yet, because different aseptic technics are all different on the complexity of preservative effect, cost, operation and relevant risk, therefore, the aseptic technic difference that oil-gas field adopts, its anticorrosion expense and difference on effect are also very big.In the past, when which kind of aseptic technic oil-gas field adopted in decision, can main consideration not solve the tube corrosion problem effectively, and initial investment will lack, not or seldom carry out economic evaluation from the angle of oil-gas field whole development.Yet " efficient economy " is the principle of oil-gas field development.Therefore no matter take which kind of aseptic technic all will carry out economic evaluation, the total expenses that oil-gas field was dropped in the exploitation time limit is minimum, rather than expense is minimum or effect is best in a certain period.Therefore, be necessary CO 2Various aseptic technics under the corrosive environment are estimated, thereby optimize the aseptic technic that is fit to oil-gas field development.
Aseptic technic commonly used and characteristics thereof
At present, domestic and international application is than successful CO 2Aseptic technic under the corrosive environment mainly contains following five classes:
1. use the non-corrosive metal steel tubing
Mainly be meant and be used for anti-CO 2Corrode and the steel alloy oil pipe (as steel pipes such as 1Cr, 9Cr, 13Cr) of exploitation.Such tubing relies on the corrosion resistance nature opposing CO of self 2Corrosion.The constructional method of this technology is basic identical with use plain carbon stool tubing, in its validity period, need not other supplementary measures, and production operation does not have influence to the oil gas well, and technology is the simplest, but initial investment is bigger.
2. use the coated layer oil pipe
Coated layer oil pipe in the production of hydrocarbons well mainly relies on its coating or coating to completely cut off contacting of steel body and corrosive medium, thereby reaches the rot-resistant purpose.The quality of its preservative effect and coating or coating material and technology level thereof are relevant, tubing sub place and to add " leak source " that exist man-hour be the weak part that easily is corroded.And for the recovery well of need workover treatment, because coated layer is subject to the destruction of wireline and can't reaches the rot-resistant purpose.This technology is less relatively to oil gas well production influence, and the simple and cost of technology generally can be very not high.
3. injection inhibiter
Injecting inhibiter anticorrosion mainly is to utilize the preservative activity of inhibiter to reach the purpose of slowing down tube corrosion, and its preservative effect is mainly relevant with hole condition (as temperature, pressure), inhibiter type, injection cycle, injection rate.This technical costs is low, and initial investment is few, but technology is complicated, and is bigger to producing influence.Inhibiter has two kinds of injection modes:
(1) injection mode intermittently.This mode must just can drive a well after for some time (the processing cycle was generally 2~3 months) by closing well after inhibiter is injected in oil pipe, therefore, production is had certain influence.
(2) continuous injection mode.This mode mainly the bypass pipe by oil jacket annular space or annular space and fillup valve injects into well inhibiter continuously or oil pipe in, the oil gas well does not need closing well, and is therefore, less to producing influence.
4. galvanic protection
This technology utilizes the mode of sacrificial anode to protect down-hole string (generally being used for protective casing) to avoid corrosion.Its operating procedure complexity, and the influence of required basic parameter accuracy and site environment when being subject to conceptual design be difficult to realize best preservative effect, and operating cost are higher.
5. use plain carbon stool
Use the plain carbon stool tubing string, and in its life span, change the oil pipe tubing string, overlap effective pkr and add annular space protection liquid and protect.This aseptic technic needs the frequent oil pipe of changing, and is very big to oil gas well production influence, and kill operation is bigger to reservoir damage, but the production initial stage does not increase additional anticorrosion expense substantially.
At present, the common recognition that reaches of industry is: aseptic technic determine will be minimum with anticorrosion expense in the hydrocarbon-bearing pool life span be target; For the hydrocarbon-bearing pool of life-span length, seriously corroded, adopt non-corrosive metal steel oil pipe finally to invest minimum, most effective.
Known in the existing API5CT standard have a L80-13Cr tubing and casing product, and its fertile intensity is 80 and 95 grade of steels, and the highest service temperature is generally 120 ℃, and corrosion resisting property is less than 0.25mm/y.
Exploitation along with oil well and gas well, well depth is also in continuous increase, the oil gas well that is rich in CO2 and surpasses API standard 13Cr steel pipe service condition that well depth surpasses 5000m constantly increases, is badly in need of anti-higher service temperature (120-150 ℃), corrosion resisting property better, 110 steel grade oil sleeve pipes that intensity is higher.For satisfying high intensity and high anti-corrosion requirement, external each big steel pipe factory develops 110 nonstandard grade of steel 13Cr stainless steel tubing and casing one after another, as the KO-HP1-13Cr110 of Kawasaki, the low-carbon (LC) SM13CR 110 of Sumitomo etc., the chemical ingredients and the performance of its matured product are as shown in table 1.
Table 1 Kawasaki and Sumitomo 110 steel grade oil sleeve pipe chemical ingredientss
The trade mark Chemical ingredients (wt%)
C Si Mn Cr Ni Mo P S
SM13CR ≤ 0.03 ≤ 0.5 ≤ 1.0 11.0-14.0 4.0-6.0 0.2-1.2 ≤ 0.020 ≤ 0.010
KO-HP1-13Cr ≤ 0.04 ≤ 0.5 ≤ 0.6 12-14 3.5-4.5 0.8-1.5 ≤ 0.020 ≤ 0.010
Grade of steel Yield strength Rm Unit elongation (%)
Minimum Kpsi (Mpa) Maximum Kpsi (Mpa) Minimum tensile strength Kpsi (Mpa)
KO-HP1-13Cr110 110(758) 130(896) 120(792~827) The API standard
SM13CRS110 110(758) 130(896) 115~120(792~ 827) The API standard
In addition, except that above-mentioned alloy designs, there are following 6 patent of invention technology to relate to the corrosion-resistant alloy oil annular tube steel of using, see Table 2.The foregoing invention patented technology is primarily aimed at and requires anti-CO 2Corrosion and anti-CO 2With micro-H2S corrosion tubing and casing.That is, an intensity is 80 grade of steels, and other 4 requirement of strength also all are no more than 110 grade of steels.Wherein, do not relate to requirement of strength the Japanese patent laid-open 11-140594 of relevant alloy designs number, relating to the Japanese Patent spy that requirement of strength surpasses 110 grade of steels opens 2003-105441 number, its intensity reaches 95~125Kpsi,-40, more than the 30J, but undeclared environment for use, and open the 2003-105441 patented technology according to the spy, though carbon content and grade of steel are similar with this patent in its steel, but it is to strengthen matrix by high N, and the back smelts and the casting difficulty is very big because N adds, and the corrosion resistance of steel descends on the contrary.
In addition, the nonstandard 13Cr steel of the Kawasaki of aforementioned Japan and Sumitomo company all contains higher nickel and molybdenum and lower carbon, but relating to of mentioning in the above-mentioned patent high Cr alloy part patent, open flat 4-224656, spy as the clear 61-207550 of Japan, spy and open patent such as flat 11-140594 and also contain higher nickel and molybdenum.And these technology mainly by increasing alloy content, particularly increase precious metal alloys such as Ni and Mo, guarantee high temperature resistant, anti-CO2, reach micro-H2S corrosive nature.
This area is all known, requires high temperature resistant 120-150 ℃, anti-CO for deep-well 2Corrosion but and do not require H 2The environmental requirement of S corrosive adopts tubing and casing nickelic, molybdenum alloy then to cause cost too high.
In addition, except existing 110ksi grade of steel Ultra-low carbon 13Cr tubing and casing steel grade Mo, bullion content height such as Ni, Cu, very outside the costliness, its carbon content only be a Ultra-low carbon to cost, and converter can not be smelted, and must walk electric furnace one forging-peeling-tube rolling product line.This also causes this product line rate of becoming a useful person low, the manufacturing cost height.
The alloy designs (wt%) of the existing main patented technology of table 2
The patent No. (grade of steel) C Si Mn Cr Ni Mo Cu Al N B(Ti) V Fe
Clear 61-20755 0 (100 grade of steel) 0.03 /0.20 ≤ 1.0 ≤ 1.0 12 /14 0.5 /6 0.5 /4.0 ≤ 0.006 Balance
Te Kaiping 4-224656 (90-100 grade of steel) 0.02 /0.05 ≤ 0.3 0.3/ 1.2 12 /14 3 /5 0.5 /1.5 0.01 /0.05 0.03 / 0.08 Balance
Te Kaiping 8-120415 (80 grade of steel) 0.15 /0.22 ≤ 1.0 0.25 /1.0 12 /14 ≤ 0.03 0.01 5 / 0.03 Balance
Te Kaiping 11-14059 4 (nothing) ≤ 0.05 ≤ 0.5 ≤ 1.5 10 /14 4 /7 1 /3 1 / 2 0.06 /0.3 ≤ 0.08 0.5S /0.05 Balance
Clear 61-69947 (≤105 grade of steel) 0.1 /0.3 ≤ 1.0 ≤ 2.0 12.5 /13.5 ≤ 0.02 (Ti) a small amount of On a small quantity Balance
The spy opens 2003-105 441 (95 ~ 125 grade of steel) (40, more than the 30J) (using undeclared) 0.15 /0.25 ≤ 1.0 0.1 /1.0 11 /14 ≤ 0.5 ≤0.1 ≤ 0.07 ≤ 0.15 Balance
This patent composition range 0.15- 0.25 0.2- 1.0 0.2- 1.0 12 /14 0.5- 1.5 0.2- 1.0 0.01- 0.05 0.01- 0.10 Balance
In view of above-mentioned, 2Cr13 steel grade in the existing API standard can only be produced the following tubing and casing product of 95 grade of steels, be not suitable for deep-well with high grade of steel service requirements, and Ultra-low carbon 13Cr high alloy oil annular tube steel contains precious metal alloys such as higher Ni and Mo, cost is very high, and the present invention is by proposing the anti-CO of a kind of new high strength 2Corrosion is with steel and manufacture method, replaces at present that general nickel-molybdenum is a low carbon stainless steel, solves deep-well oil-gas field tubing and casing material.The present invention only adds minor amount of nickel, molybdenum and vanadium and can reach 110 grade of steel requirement of strength by on API standard L80-13Cr tubing and casing composition basis, satisfies anti-120-150 ℃, anti-CO2 and chloride ion corrosion requirement simultaneously.
Summary of the invention
The object of the present invention is to provide the high grade of steel of a kind of 110ksi, high anti-CO 2Corrosion oil annular Guan Gang, purpose of the present invention is to provide the high grade of steel of a kind of 110ksi, high anti-CO again 2The manufacture method of corrosion oil annular Guan Gang.
The high grade of steel of 110ksi according to the present invention, high anti-CO 2Corrosion oil annular Guan Gang, its chemical ingredients (weight percent) proportioning is:
C: 0.15~0.25wt% Si:0.2~1.0wt%
Mn: 0.20~1.0wt% Cr:12.0~14.0wt%
Ni: 0.5~1.5wt% Mo:0.2~1.0wt%
V: 0.01~0.10wt%,
All the other are Fe and unavoidable impurities element.
The selection reason of high quality steel chemical composition design of the present invention is as follows:
C: be the bioelement that guarantees steel strength performance and corrosive nature.For guaranteeing necessary strength, carbon content can not be low excessively, undercapacity when carbon content is lower than 0.15wt%; Carbon content is higher than 0.25%, causes in the tissue reducing crystal boundary chromium content because of carbon and chromium form carbide, reduces corrosion resistance.Simultaneously, carbon content is too high, the hardness height of material, and toughness degenerates, and solidity to corrosion will be affected the suitable restriction of needs carbon content.
Cr: be the main alloy element that improves solidity to corrosion and intensity.Cr content is less than 12% o'clock, the solidity to corrosion deficiency, and Cr content was greater than 14% o'clock, and the intensity and the hardness of material are too high, cause the toughness of material to descend.The too high plain body of high temperature iron that also easily causes of chromium forms, and reduces hot workability.
Ni: improve corrosive nature and toughness, help high temperature rolling, reduce forming high temperature delta ferrite tendency.Useful to reducing Cold Brittleness Transition Temperature simultaneously.The Ni add-on is low excessively, DeGrain, the too high cost that then increases of add-on.
The adding of Mo has improved the particularly anti-local corrosion of solidity to corrosion, has also improved the intensity and the hardening capacity of material.Be lower than 0.2% as add-on, DeGrain is higher than 1.0%, and processing characteristics and plasticity worsen.
Si: add and play deoxidation in the steel and improve corrosion proof effect, be lower than 0.2%, DeGrain, greater than 1%, processing and toughness worsen.
Mn: improve steel obdurability element and the time austenitic area enlarge element, not obvious less than effect in 0.2% o'clock, greater than 1%, will reduce corrosive nature.
Al: in steel, played the effect of desoxydatoin and crystal grain thinning, also improved the stability and the solidity to corrosion of superficial film in addition.When add-on is lower than 0.01%, DeGrain, add-on surpasses 0.10%, the mechanical property variation.
V: improve the element of the obdurability of steel, not obvious less than effect in 0.01% o'clock, greater than 0.1%, will worsen the toughness of steel.
Be preferably the high grade of steel of 110ksi according to the present invention, high anti-CO 2Corrosion oil annular Guan Gang optionally, adds the Al element of trace in the said ratio.
Be preferably the high grade of steel of 110ksi according to the present invention, high anti-CO 2Corrosion oil annular Guan Gang, the impurity element total amount is lower than 0.5%wt.
Purpose of the present invention is to provide the high grade of steel of a kind of 110ksi, high anti-CO again 2The manufacture method of corrosion oil annular Guan Gang.
The high grade of steel of 110ksi according to the present invention, high anti-CO 2The manufacture method of corrosion oil annular Guan Gang, its chemical ingredients (weight percent) proportioning is:
C: 0.15~0.25wt% Si:0.2~1.0wt%
Mn: 0.20~1.0wt% Cr:12.0~14.0wt%
Ni: 0.5~1.5wt% Mo: 0.2~1.0wt%
V: 0.01~0.10wt%,
All the other are Fe and unavoidable impurities element.
The oil bushing steel of mentioned component proportioning is cast into ingot casting by converter steelmaking, adopts warm ingot to go into stove before the breaking down, go into stove surface of steel ingot temperature less than 600 ℃,
Breaking down circle base is rolling after annealing, and annealing temperature is controlled between 650~750 ℃, annealed tube blank 1150 ℃~1200 ℃ heat tracings 1.5~2 hours after perforation, be rolled into hollow forging,
Steel pipe quenches and tempering under 900~980 ℃ of temperature subsequently, thus, obtains 110 steel grade oil sleeve pipe products.
Manufacturing method according to the invention directly is rolled after steel ingot is cast into ingot casting, rather than adopts common forging method, has greatly improved steel become a useful person rate and production efficiency, has obviously saved manufacturing cost.
Be preferably the high grade of steel of 110ksi according to the present invention, high anti-CO 2The manufacture method of corrosion oil annular Guan Gang, the steel pipe after the quenching is through 580~660 ℃ of temperature tempering, and tempering time is controlled within an hour.
Be preferably the high grade of steel of 110ksi according to the present invention, high anti-CO 2The manufacture method of corrosion oil annular Guan Gang optionally, adds the Al element of trace in the said ratio.
Be preferably the high grade of steel of 110ksi according to the present invention, high anti-CO 2The manufacture method of corrosion oil annular Guan Gang, the impurity element total amount is lower than 0.5%wt.
Embodiment
Below, with reference to embodiment, specify the present invention.
Embodiment
Table 3 is depicted as the chemical ingredients of experiment steel grade, and wherein 1-5 is five steel grades of the present invention, and 6-9 is the contrast steel grade, the tubing and casing alloy that generally uses for present oil field.
The chemical ingredients of table 3 steel of the present invention and existing steel alloy, wt%
Classification Grade of steel Chemical ingredients (wt%)
C Si Mn Cr Mo Ni Cu V Al
Steel of the present invention 1 0.15 0.4 0.5 12.0 0.5 0.9 0.01 0.02
2 0.20 0.5 0.2 13.1 0.2 0.5 0.04 0.01
3 0.23 0.5 0.4 12.9 1.0 1.0 0.05 0.10
4 0.25 0.2 0.5 14.0 1.5 0.03
5 0.20 1.0 0.8 12.7 0.6 1.0 0.10
The contrast steel 6 0.02 0.46 0.35 13.6 1.1 4.61 2.5 0.05
7 0.02 0.42 0.38 12.3 2.03 5.8 1.48
8 0.03 0.21 0.36 12.8 2.0 4.22
9 0.20 0.4 0.3 13.0 0.2 0.08 0.05
All the other are Fe and unavoidable impurities element.
The oil bushing steel of mentioned component proportioning is cast into ingot casting by converter steelmaking, adopts warm ingot to go into stove before the breaking down, go into stove surface of steel ingot temperature requirement less than 600 ℃.Breaking down circle base requires annealing rolling the back, and annealing temperature is controlled between 650~750 ℃, annealed tube blank 1150 ℃~1200 ℃ heat tracings 1.5~2 hours after perforation, be rolled into hollow forging.Steel pipe quenches under 900~980 ℃ of temperature subsequently, and through 580~660 ℃ of temperature tempering, tempering time is controlled within an hour, thus, obtains 110 steel grade oil sleeve pipe products.
The principal feature of present embodiment is directly to be rolled after steel ingot is cast into ingot casting, rather than adopts common forging method, has greatly improved steel become a useful person rate and production efficiency, has obviously saved manufacturing cost.
The test example
Table 4 for patent of the present invention with steel and contrast with the mechanical property of steel and resistant to carbon dioxide, chloride ion corrosion performance.Corrosion experiment adopts autoclave, and under 120 ℃ and 150 ℃ of temperature, partial pressure of carbon dioxide 2.5MPa also adds 3.5%NaC1 to corrosion experiment respectively, velocity of medium is set at 2m/S, experimental period is 168 hours, measures corrosion weight loss and converts erosion rate to, the mm/a of unit.
The mechanical property of table 4 steel of the present invention and compared steel and resistant to carbon dioxide, chloride ion corrosion performance
Numbering Rt0.6 (MPa) Rm (MPa) A50.8 (%) Erosion rate mm/a (120 and 150 ℃, 2.5Mpa CO 2+ 3.5%NaCl, speed 2m/s)
1 832 950 22 0.02 0.002
2 820 930 21 0.04 0.002
3 810 960 19.5 0.04 0.003
4 799 950 18.5 0.03 0.002
5 812 956 20 0.03 0.002
6 813 870 20.5 0.036 0.002
7 821 920 20.5 0.025 0.001
8 835 941 17.0 0.032 0.002
9 800 910 15.0 0.06 0.007
From the result of table 4 as can be seen, the intensity and the corrosion resistance nature of high-alloy stainless steel oil annular tube steel high temperature resistant of the present invention, carbonic acid gas and chloride ion corrosion performance and ultralow-carbon chromium, molybdenum high-alloy stainless steel oil annular tube steel are suitable.The present invention through after converter steelmaking, die casting, breaking down cogging, rolling tubulation and the rational heat treatment technology, can obtain the anti-corrosion tubing and casing of non-API that mechanical property satisfies 110 grade of steels with steel.By reducing nickel content and adding alloying elements such as a small amount of molybdenum and vanadium and can reduce material cost greatly.
The high grade of steel of 110ksi according to the present invention, high anti-CO 2The manufacture method of corrosion oil annular Guan Gang, based on PIL80-13Cr tubing and casing alloy designs, by adding minor amount of nickel, molybdenum, vanadium alloy element, thus, not only can obtain the oil well pipe that strength grade reaches 110 grade of steels, and, after nickel, molybdenum, the compound interpolation of vanadium, improve the tempering temperature of steel, obviously improved the low-temperature impact toughness of steel.In addition, in alloy designs of the present invention,, obtain anti-CO under 120-150 ℃ of condition of temperature by controlling certain carbon content, adding elements such as chromium, nickel, molybdenum, vanadium also through after the suitable thermal treatment 2Reach the tubing and casing of 110 grade of steels, the high grade of steel of 110ksi of the present invention, high anti-CO with the intensity of chloride ion corrosion 2The low-carbon nickel that corrosion oil annular Guan Gang uses more at present, molybdenum series 110 steel grade oil shell materials can be saved the molybdenum of nickel 1-2% of 3-4% and an amount of copper, greatly reduce cost of alloy.In addition, steel grade of the present invention is walked converter and is produced line, has saved production cost greatly.Steel alloy of the present invention is because its cost of alloy and CO cheap for manufacturing cost, anti- 2Corrosive nature is good, can be widely used in the corrosion resistant occasions of needs such as oil well pipe.

Claims (7)

1. the high grade of steel of 110ksi, high anti-CO 2Corrosion oil annular Guan Gang, its chemical ingredients proportioning is:
C: 0.15~0.25wt% Si:0.2~1.0wt%
Mn: 0.20~1.0wt% Cr:12.0~14.0wt%
Ni: 0.5~1.5wt% Mo:0.2~1.0wt%
V: 0.01~0.10wt%,
All the other are Fe and unavoidable impurities element.
2. the high grade of steel of 110ksi as claimed in claim 1, high anti-CO 2Corrosion oil annular Guan Gang is characterized in that, adds the Al element of trace in the said ratio.
3. the high grade of steel of 110ksi as claimed in claim 1, high anti-CO 2Corrosion oil annular Guan Gang is characterized in that, the impurity element total amount is lower than 0.5%wt.
4. the high grade of steel of 110ksi, high anti-CO 2The manufacture method of corrosion oil annular Guan Gang, the high grade of steel of described 110ksi, high anti-CO 2The chemical ingredients proportioning of corrosion oil annular Guan Gang is:
C: 0.15~0.25wt% Si:0.2~1.0wt%
Mn: 0.20~1.0wt% Cr:12.0~14.0wt%
Ni: 0.5~1.5wt% Mo:0.2~1.0wt%
V: 0.01~0.10wt%,
All the other are Fe and unavoidable impurities element,
The oil bushing steel of mentioned component proportioning is cast into ingot casting by converter steelmaking, adopts warm ingot to go into stove before the breaking down, go into stove surface of steel ingot temperature less than 600 ℃,
Breaking down circle base is rolling after annealing, and annealing temperature is controlled between 650~750 ℃, annealed tube blank 1150 ℃~1200 ℃ heat tracings 1.5~2 hours after perforation, be rolled into hollow forging,
Steel pipe quenches and tempering under 900~980 ℃ of temperature subsequently, thus, obtains 110 steel grade oil sleeve pipe products.
5. the manufacture method of the high grade of steel of 110ksi as claimed in claim 4, high anti-CO2 corrosion oil annular Guan Gang is characterized in that the steel pipe after the quenching is through 580~660 ℃ of temperature tempering, and tempering time is controlled within an hour.
6. the high grade of steel of 110ksi as claimed in claim 4, high anti-CO 2The manufacture method of corrosion oil annular Guan Gang is characterized in that, adds the Al element of trace in the said ratio.
7. the high grade of steel of 110ksi as claimed in claim 1, high anti-CO 2The manufacture method of corrosion oil annular Guan Gang is characterized in that described impurity element total amount is lower than 0.5%wt
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CN102296245A (en) * 2010-06-23 2011-12-28 宝山钢铁股份有限公司 High-strength high-corrosion-resistance wear-resisting sleeve steel and manufacturing method
CN102294456A (en) * 2011-08-16 2011-12-28 新兴铸管股份有限公司 Manufacturing method for oblique rolling of bimetallic compound seamless steel pipe by centrifugal blank
CN102719747A (en) * 2012-06-25 2012-10-10 宝山钢铁股份有限公司 Sulfate reducing bacteria corrosion-resistant oil well pipe and production method thereof
CN104099527A (en) * 2013-04-08 2014-10-15 宝山钢铁股份有限公司 Manufacturing method for super 13Cr thickened drilling rod
CN103469097A (en) * 2013-09-29 2013-12-25 宝山钢铁股份有限公司 High-strength martensite ferrite two-phase stainless steel anti-corrosion oil casing pipe and manufacturing method thereof
CN103469097B (en) * 2013-09-29 2016-04-27 宝山钢铁股份有限公司 The corrosion-resistant tubing and casing of high strength martensitic ferrite diphasic stainless steel and manufacture method thereof
CN107552567A (en) * 2017-09-08 2018-01-09 苏州钢特威钢管有限公司 The preparation method of 1Cr17 ferrite stainless steel pipes
CN107575171A (en) * 2017-10-21 2018-01-12 中国石油集团渤海钻探工程有限公司 A kind of drilling rod and its application method for salt-water drilling fluid

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