CN107429365A - The method for producing the pipe of two phase stainless steel - Google Patents

Abstract

This disclosure relates to a kind of method for the pipe for producing two phase stainless steel, is especially suitable for the two phase stainless steel used in the fuel injection system in the combustion chamber for injecting fuel into internal combustion engine.

Description

The method for producing the pipe of two phase stainless steel

Technical field

This disclosure relates to a kind of method for the pipe for producing two phase stainless steel, is particularly suitable for for injecting fuel into The two phase stainless steel used in fuel injection system in the combustion chamber of internal combustion engine.

Background technology

It is related to the design of gasoline in-cylinder direct-jet (GDI) system for auto industry, it has been suggested that to use two phase stainless steel For track, the track is used to guide fuel injection in the combustion chamber of internal combustion engine.

Several requirements for the pipe as GDI tracks be present, and pair for requiring to use in this application in design It must be considered during phase stainless steel.It is important, therefore, that two-phase stainless is selected in combination with the pipe manufacturing process properly selected The chemical composition of steel, this causes predetermined austenite/ferrite ratio, it is desirable to corrosion resistance (resistance in general corrosion and support The resistance of pitting corrosion), the microstructure substantially without intermetallic phase, particularly sigma phase and chromium nitride, predetermined rushes Hit toughness, predetermined tensile strength and predetermined fatigue strength.In addition, the mechanical performance of dual phase steel should cause obtained pipe will It is presented predetermined burst pressure, i.e. the internal pressure untill failure, the burst pressure is when the wall thickness of pipe is relatively small pair It is also sufficiently high in contemplated application, therefore realize the GDI tracks of the space for requiring smaller and weight.Corrosion and fatigue behaviour should Ensure patience of the pipe with the time.

Therefore the design and producing hypothesis of two phase stainless steel meets the technique of the pipe of the two phase stainless steel of the requirement of GDI tracks It is complicated task.Selected chemical composition and processing parameter must adjust toward each other.Therefore, once name is chemical Composition has been decided to be for two phase stainless steel, then processing parameter also must be on this selection.The chemistry of two phase stainless steel Composition should also promote cost-effective production technology.In other words, chemical composition should not make it that overcomplicated, power consumption or consumption will be required When production stage.

It is the method for the pipe for proposing production two phase stainless steel in terms of the disclosure, methods described realizes the two-phase stainless The production of the pipe of steel, the pipe of the two phase stainless steel, which is presented, makes the pipe be suitable for existing for corrosion resistance (resistance general corrosion And the resistance of resistance spot corrosion), predetermined impact flexibility, the high request of predetermined tensile strength and predetermined fatigue strength Application performance.

One this application is for guiding fuel injection to the GDI tracks in the combustion chamber of internal combustion engine.The two-phase of the pipe Stainless steel should be presented substantially without intermetallic phase, the particularly microstructure of sigma phase and chromium nitride.The change of two phase stainless steel Study a point cost-effective production for the pipe that two phase stainless steel should be realized in terms of the effective processing step of use cost is promoted.

The content of the invention

The aspects described above realizes that present disclose provides the method for the pipe of production two phase stainless steel, institute by the disclosure Stating the pipe of two phase stainless steel includes following component, in units of percentage by weight (wt%),

C maximums 0.06；

Cr 21-24.5；

Ni 2.0-5.5；

Si maximums 1.5；

Mo 0.01–1.0；

Cu 0.01-1.0；

Mn maximums 2.0；

N 0.05–0.3；

P maximums 0.04；

S maximums 0.03；With

The Fe of aequum and inevitable impurity, and with least 23.0 PRE values, wherein methods described including with Lower step：

A) fused mass of two phase stainless steel is provided；

B) from the body of fused mass Cast Duplex Stainless Steel；

C) rod is formed by the body；

D) by generated in rod hole and by rod into pipe；

E) diameter and/or wall thickness of hot-extrudable reduction pipe are passed through；

F) diameter and/or wall thickness of pipe are further reduced by cold deformation；With

G) pipe of cold deformation is annealed；

Wherein after step g), the two phase stainless steel of the pipe obtained is by 40% to 60% austenite and 40% to 60% Ferrite is formed, and wherein step g) include making the temperature that the pipe is subjected in the range of from 950 DEG C to 1060 DEG C reach from The period of 0.3 to 10 minute, and the atmosphere being made up of admixture of gas is subjected to, the admixture of gas includes 1% to 6% The nitrogen of percent by volume, and residue is H₂Or inert gas.

Consequently, it was found that to be optimal the annealing temperature of material property, annealing time and annealing atmosphere.Have found annealing Temperature should be in the range of from 950 DEG C to 1060 DEG C, and atmosphere should include following admixture of gas, i.e., described admixture of gas bag The nitrogen of 1% to 6% percent by volume is included, and it is remaining from H₂Or inert gas selection, and annealing should be from 0.3 to 10 minute Performed in period.

If using lower annealing temperature, the risk for forming undesirable precipitation, such as intermetallic phase be present.Separately Outside, recrystallization will be slower, and therefore will require elevated soak time to complete to recrystallize, therefore have for productivity ratio negative Influence.

In principle, the temperature upper limit of annealing steps is set the temperature for starting fusing by two phase stainless steel.However, also deposit Annealing temperature should be further restricted it is actual the reason for.At the high temperature in the section than being provided, two phase stainless steel will Become softer, this will increase the risk damaged during annealing steps.Under high-temperature, grain growth will also increase, so that It must be more difficult to obtain good technique and crystallite dimension control.Also it is very important that using will balance phase fraction annealing temperature Degree, too low temperature will cause too low ferrite content, and too high temperature will provide too high ferrite content.Annealing step Rapid temperature will also influence the chemical composition of ferritic phase and austenite phase, thus annealing temperature need together with chemical composition by Balance, to ensure the two mutually by with good corrosion resistance.

The period that pipe is subjected to annealing temperature should be between 0.3 to 10 minute, such as 0.3 to 5 minute, such as 0.3 to 2.5 Minute.Time period needs to be enough to grow, to ensure fully to recrystallize.If however, the period is long, obtained Pipe will have coarse structure, this will for mechanical performance have negative effect.The thickness of tube wall is bigger, then annealing time is got over It is long.Contemplate from about 1mm up to about 5mm wall thickness.

In addition, the atmosphere of annealing steps is extremely important.Atmosphere including nitrogen by influence two phase stainless steel surface in nitrogen Content.Therefore, the effect of the nitrogen in atmosphere is to maintain the nitrogen content of the material at surface.Under the annealing temperature of this method, Nitrogen will diffuse into material and be diffused out from material.Nitrogen content should be chosen such that the nitrogen content maintained in surface.Have found it By the net loss of the nitrogen caused in surface, this will negatively influence such as upper too low nitrogen content in the middle atmosphere for performing annealing Literary or defined two phase stainless steel below corrosion resistance and mechanical performance.Have found in the atmosphere for wherein performing annealing Too high nitrogen level will cause the increase of nitrogen during annealing in the surface of material, and because nitrogen is strong austenitic formation agent (former), so therefore the change of nitrogen content may influence to balance each other.Therefore, the nitrogen of the high content in atmosphere will be in order in table Austenite is formed in face and is provided.Nitrogen content in the surface of material will be also influenceed relative to forming precipitation, such as chromium nitride The structural stability of sensitiveness.The formation of precipitation is by for such as hereinbefore or the corrosion resistant of two phase stainless steel that is defined below Corrosion has negative effect.

Resistance to spot corrosion equivalent PRE is defined as PRE=Cr (percentage by weight)+3.3Mo (percentage by weight)+16N (percentage by weight).At least about 23.0 PRE instructions, by composition defined above, whole three in chromium, molybdenum and nitrogen are not Allow to be in its minimum value simultaneously, but must combine so that PRE values defined in acquisition.According to another embodiment, PRE values It is at least about 24.0.As hereinbefore and be used below term " about " instruction integer ± 10%.

According to one embodiment, (step g) temperature range is from 970 DEG C to 1040 DEG C for annealing steps.Implemented according to another Example, the temperature range is from 1000 DEG C to 1040 DEG C.

According to one embodiment, the annealing steps include make the pipe be subjected to the temperature reach from 0.5 to 5 minute when Between section, such as from period of 0.5 to 1.5 minute.

According to one embodiment, inert gas is argon or helium or its mixture.

According to one embodiment, content of the nitrogen in admixture of gas is less than or equal to 4% percent by volume.According to another One embodiment, content of the nitrogen in the admixture of gas are less than or equal to 3% percent by volume.According to another embodiment, Content of the nitrogen in the admixture of gas is greater than or equal to 1.5% percent by volume.

According to one embodiment, (step e) includes making 1100 DEG C to 1200 DEG C of the Guan Cong's the hot-extrudable step At a temperature in the range of be subjected to hot-extrudable, and be subjected to subtracting in the cross-sectional area from the pipe in the range of 92% to 98% It is small.According to one embodiment, (step e) includes making in the range of 1100 DEG C to 1170 DEG C of the Guan Cong for the hot-extrudable step At a temperature of be subjected to hot-extrudable, and be subjected to from the reduction of the cross-sectional area of the pipe in the range of 92% to 98%.It is transversal Face area, which reduces, to be defined as：((pipe) cross-sectional area before extrusion subtracts cross-sectional area after extrusion)/( Cross-sectional area before extrusion).The selection of chemical composition of extrusion temperature and degree of deformation on two phase stainless steel so that it does not have Have for the microstructure of two phase stainless steel adverse effect or will not result in crackle in two phase stainless steel etc., the crackle pair In the mechanical performance of final products will be harmful.

According to one embodiment, cold deformation step (step f) is included in pipe is not preheated in the case of Guan Jing is cooled change Shape.According to one embodiment, (step f) includes making the pipe be subjected in the range of 50% to 90% the cold deformation step The cross-sectional area of pipe reduces.Cross-sectional area, which reduces, to be defined as：((the pipe before Pi Geershi tube rollings (pilgering) ) cross-sectional area subtracted in the cross-sectional area after Pi Geershi tube rollings)/(cross section before Pi Geershi tube rollings Area).The selection of chemical composition of two phase stainless steel is to realize this cold deformation of two phase stainless steel, and without undesirable in material Crackle generation or any harmful negative effect of the microstructure for material.

According to such as above or method following by definition one embodiment, cold deformation is Pi Geershi tube rollings or cold Draw.

According to one embodiment, when cold deformation is Pi Geershi tube rollings, the wall thickness in pipe reduces between external diameter reduction Relation be expressed as Q values, wherein

Q- values=(Wallh-Wallt) * (Odh-Wallh)/Wallh ((Odh-Wallh)-(Odt-Wallt)), wherein

The thickness of the wall of Wallh=hollow walls=before Pi Geershi tube rollings

The thickness of the wall of Wallt=tube walls=after Pi Geershi tube rollings

The diameter of pipes of the hollow OD=of Odh=before Pi Geershi tube rollings

The diameter of pipes of the Odt=pipes OD=after Pi Geershi tube rollings, and wherein

Q is in the range of 0.5 to 2.5.If area reduction is too high, power may ftracture too high and material.

According to another embodiment, Q is in the range of 0.9 to 1.1.

According to one embodiment, the two phase stainless steel has following composition, in units of percentage by weight：

C 0.01-0.025；

Si 0.35-0.6；

Mn 0.8-1.5；

Cr 21-23.5；

Ni 3.0-5.5；

Mo 0.10–1.0；

Cu 0.15-0.70；

N 0.090–0.25；

P is less than or equal to 0.035；

S is less than or equal to 0.003；

The Fe of aequum and inevitable impurity.

Two phase stainless steel with this chemical composition is particularly suitable for being subjected to more than process described above parameter Described processing step.In other words, as hereinbefore or processing step following by definition and parameter are selected as being particularly suitable for In the two phase stainless steel with this chemical composition, and cause the pipe with following performance so that the pipe is particularly well suited as using In the application for channeling fuel into the GDI tracks in fuel injection system, the fuel injection system is used to inject fuel into In the combustion chamber of internal combustion engine.

According to another embodiment, pipe is for channeling fuel into the pipe in fuel injection system, the fuel injection systems Unite for injecting fuel into the combustion chamber of internal combustion engine.The disclosure can be defined as production as replacement and be used for fuel injection To the technique of the fuel guiding device (conductor) in the fuel injection system in the combustion chamber of internal combustion engine, wherein the technique Including above and/or the following by definition method for being used to produce the pipe of two phase stainless steel.This technique is included by means of hard pricker The pipe of two phase stainless steel is attached to the further structural elements of the internal combustion engine by weldering.Further structural elements can be metal, Typically austenite or dual phase steel.The method of production pipe, include the selection of the chemical composition of two phase stainless steel, be also intended to realization The low of fragility (LMIE) is induced with favourable brazeability energy, especially for liquid metal caused by being penetrated by liquid metal The pipe of neurological susceptibility.Solder brazing includes copper brazing, be possibly in continuous smelting furnace in the range of from 1100 DEG C to 1140 DEG C At a temperature of carry out.

According to one embodiment, after the Pi Geershi tube rollings step, pipe has in the range of from 15 to 35mm External diameter.According to one embodiment, this effective guiding fuel injection that acts on is to the fuel injection systems in the combustion chamber of internal combustion engine GDI tracks in system.

According to another embodiment, after the Pi Geershi tube rollings, pipe is with the external diameter from 7mm to 10mm.According to one Individual embodiment, this effective guiding fuel injection that acts on is to the cartridge in the fuel injection system in the combustion chamber of internal combustion engine Line.

Hereinbefore the function and effect with the necessary alloying element of two phase stainless steel following by definition will be with hypomeres Provided in falling.The function of each alloying element and enumerating for effect are not regarded as completely, but entering for the alloying element may be present One step function and effect.But, there is provided for the rudimentary knowledge being considered as when designing two phase stainless steel and for producing The viewpoint of the technological parameter of the method for the pipe of the two phase stainless steel, the pipe of the two phase stainless steel are notably intended to guide fuel Fuel in spraying system is for injecting fuel into the two-phase stainless pipe in the combustion chamber of internal combustion engine.

Carbon C has austenite stablizing effect and resisted in the deformation of two phase stainless steel from austenitic structure to martensite knot The transformation of structure.C has good effect for the intensity of two phase stainless steel.Therefore, C content should be higher than that or equal to 0.01% weight Percentage.However, under too high level, carbon tends to form undesirable carbide with other alloying elements.C content because This should not be greater than 0.06% percentage by weight.According to one embodiment, C content should not be greater than 0.025% percentage by weight.

Chromium Cr has the strong influence of the corrosion resistance particularly spot corrosion for two phase stainless steel.According to the disclosure, PRE values Higher than 23.0.In addition, Cr improves yield strength and resisted in the deformation of two phase stainless steel from austenitic structure to martensite The transformation of structure.Therefore, Cr content should be higher than that or equal to 21.0% percentage by weight.At a high level, Cr increase contains Amount causes the higher temperature of the sigma phase of undesirable stabilization and the more rapidly generation of sigma phase.Therefore, Cr contains Amount is less than or equal to 24.5% percentage by weight.Cr also has the ferrite stablizing effect for two phase stainless steel.According to one Embodiment, Cr content are less than or equal to 23.5% percentage by weight.

Nickel has good effect for the resistance for resisting general corrosion.Ni also have strong austenite stablizing effect and Transformation of the resistance from austenitic structure to martensitic structure in the deformation of two phase stainless steel.Therefore Ni content is more than or equal to 2.0% percentage by weight.According to another embodiment, Ni content is more than or equal to 3.5% percentage by weight.To a certain degree On, Ni austenite stablizing effect can be compensated by adjusting Cr contents.However, Ni content not should be greater than or equal to 5.5% Percentage by weight.

Silicon Si is frequently present in two phase stainless steel, because silicon may have been used for the deoxidation of steel fused mass.Si is Ferrite stabilizer (stabilizer), but also resist turn from austenite to martensite relevant with the deformation of two phase stainless steel Become.Silicon also can improve corrosion resistance in some environment.However, Si reduces the solubility of nitrogen and carbon, and if with too high Level is present, then is likely to form undesirable silicide.Therefore, according to one embodiment, contents of the Si in two phase stainless steel No more than 1.5% percentage by weight.According to one embodiment, contents of the Si in two phase stainless steel is no more than 0.6% weight hundred Divide ratio.According to one embodiment, Si content can as little as about 0% percentage by weight.According to one embodiment, Si content should be big In or equal to 0.35% percentage by weight.

Molybdenum Mo has strong influence for the corrosion resistance of two phase stainless steel.Mo consumingly influences the PRE of two phase stainless steel.Mo To be added more than or equal to the amount of 0.01% percentage by weight.Molybdenum also has the ferrite stablizing effect for two phase stainless steel. According to one embodiment, Mo content is higher than 0.10% percentage by weight.Mo also increases undesirable sigma phase stabilization Temperature, and promote the speed of the generation of sigma phase.Mo is also relatively expensive alloying element.Therefore, Mo content should be small In or equal to 1.0% percentage by weight.

Copper Cu has the good effect for corrosion resistance.Cu also in the deformation of two phase stainless steel resistance from austenite to The transformation of martensite.Therefore, Cu is deliberately alternatively added to two phase stainless steel.Often, Cu is in the discarded object for producing steel Exist in product, and be allowed to be maintained in steel with medium level.According to one embodiment, Cu content can be more than or equal to 0.01% percentage by weight.According to another embodiment, Cu content is more than or equal to 0.15% percentage by weight.According to a reality Example is applied, Cu content is less than or equal to 1.0% percentage by weight.According to another embodiment, Cu content is less than or equal to 0.7% Percentage by weight.

Manganese Mn has strain hardening effect for two phase stainless steel, and is resisted in the deformation of two phase stainless steel from austenite Transformation of the structure to martensitic structure.Mn also has austenite stablizing effect.According to one embodiment, Mn is in two phase stainless steel Content should be higher than that or equal to 0.8% percentage by weight.Born however, Mn has for the corrosion resistance in acid and chloride environment Face rings, and Mn increases the trend of the generation of intermetallic phase.Therefore, Mn maximum level should not be greater than 2.0% weight percent Than.According to one embodiment, Mn content is less than or equal to 1.0% percentage by weight.

Nitrogen N has good effect for the corrosion resistance of two phase stainless steel and also contributed in strain hardening.N is rotten for resistance to point Corrosion equivalent PRE has strong effect.N also has strong austenite stablizing effect, and in the plastic deformation of two phase stainless steel When transformation of the resistance from austenitic structure to martensitic structure, and therefore added with 0.05% percentage by weight or higher amount. According to one embodiment, N content should be greater than or equal to 0.090% percentage by weight.Under too high level, N tends to Chromium nitride is formed in two phase stainless steel, the chromium nitride should be kept away due to it for the counter productive of ductility and corrosion resistance Exempt from.Therefore, N content should be less than or equal to 0.3% percentage by weight.According to one embodiment, N content is less than or equal to 0.25% percentage by weight.

Phosphorus P is the impurity contained in two phase stainless steel, and well known P negatively influences hot workability.Therefore, P Content be set in 0.03% percentage by weight or lower.

Sulphur S is the impurity contained in austenitic stainless steel, and hot workability will be deteriorated.Therefore, S's is admissible Content is less than or equal to 0.03% percentage by weight, e.g., less than or equal to 0.005% percentage by weight.

As hereinbefore or hereinafter defined two phase stainless steel can selectively include from following group selection One or more of following element：Al, V, Nb, Ti, O, Zr, Hf, Ta, Mg, Ca, La, Ce, Y and B.These elements can Added during manufacturing process, to improve such as deoxidation, corrosion resistance, high-temperature ductility or machinability.However, such as in this area In, it is known that these elements addition must depend on exist which kind of element and be limited.Therefore, if the additions of these elements Total content is less than or equal to 1.0% percentage by weight.

Term " impurity " as being related to herein is intended to mean that in industrial production two phase stainless steel due to such as ore deposit The raw material of stone and waste material and due to the various other factors in production technology will pollute two phase stainless steel material, and allow exist Not negatively affect as above or in the range of two phase stainless steel defined hereinafter polluted.

Embodiment

The disclosure is furtherd elucidate by following non-limiting example.

Example

Two fused mass of the manufacture with following component：Fe is for both aequums.

No	C	Si	Mn	P	S	Cr	Ni	Mo	Cu	N
											1	0.02	0.5	1.5	<0.035	<0.010	22.2	3.3	0.25	0.25	0.15
2	0.01	0.53	1.09	0.026	<0.003	22.88	3.15	0.12	0.21	0.25

Then the fused mass obtained is processed accordingly：

The fused mass is cast into body by using continuously casting.

Then, pole is formed by forging, and then managed by being formed in pole internal drilling.Then the diameter of pipe passes through It is reduced using hot-extrudable at a temperature of in the range of from 1120 DEG C to 1150 DEG C, the pipe obtained has 96% to 98% Cross-sectional area reduce.It is hot-extrudable to pass behind acidleach (pickling) removal bead.

Diameter is further reduced by Pi Geershi tube rollings, and make that pipe is subjected in the range of 80% to 86% its is transversal Face area reduces.

Annealed by the pipe of Pi Geershi tube rollings and then in the atmosphere being made up of admixture of gas, the admixture of gas Include about 2% nitrogen, remaining is argon gas, and makes the temperature that pipe is subjected to about 1030 DEG C of about the period of 1 minute.

In Pi Geershi tube rolling steps, Q is about 1.0.

After annealing, obtained pipe is made to be subjected to straightening step.Aligning performs in roller straightener, and roller straightener has curved Bent and ovalization combination.Pipe passes through a series of angled rollers, and the roller rotates pipe and applies a series of bending shiftings to pipe It is dynamic.Exceed yield strength during aligning, to obtain the permanent change of shape, to obtain straight tube.

External diameter of the pipe with 30mm obtained, and the effective guiding fuel injection that acts on is in the combustion chamber of internal combustion engine GDI tracks in fuel injection system.

An other pipe made of fused mass 1 manufactures also according to method disclosed above.Walked in Pi Geershi tube rollings After rapid, this pipe is with the external diameter from 8mm.This pipe is also served as guiding fuel injection to the combustion in the combustion chamber of internal combustion engine Expect the burning line in spraying system.

Claims (15)

1. a kind of method for the pipe for producing two phase stainless steel, the pipe of the two phase stainless steel includes following component, with weight percent Than for unit,

C maximums 0.06；

Cr 21-24.5；

Ni 2.0-5.5；

Si maximums 1.5；

Mo 0.01–1.0；

Cu 0.01-1.0；

Mn maximums 2.0；

N 0.05–0.3；

P maximums 0.04；

S maximums 0.03；With

The Fe of aequum and inevitable impurity,

And there is at least 23.0 PRE values,

Wherein it the described method comprises the following steps：

A) fused mass of the two phase stainless steel is provided；

B) body of the two phase stainless steel is cast from the fused mass；

C) rod is formed by the body；

D) by generated in the rod hole and by the rod into pipe；

E) the hot-extrudable diameter and/or wall thickness for reducing the pipe is passed through；

F) diameter and/or wall thickness of the pipe are further reduced by cold deformation；With

G) pipe of cold deformation is annealed；

Wherein after the step g), the two phase stainless steel of the pipe obtained by 40% to 60% austenite and 40% to 60% ferrite is formed, and wherein described step g) includes making the pipe be subjected in the range of from 950 DEG C to 1060 DEG C Temperature reaches the period from 0.3 to 10 minute, and is subjected to the atmosphere being made up of admixture of gas, and the admixture of gas includes The nitrogen of 1% to 6% percent by volume, and residue is H₂Or inert gas.

2. according to the method for claim 1, wherein the temperature range is from 970 DEG C to 1040 DEG C.

3. according to the method for claim 1, wherein the temperature range is from 1000 DEG C to 1040 DEG C.

4. the method according to any one of claims 1 to 3, wherein the annealing steps include making the pipe be subjected to institute Temperature is stated up to the period from 0.5 to 5 minute.

5. the method according to any one of Claims 1-4, wherein the inert gas is argon or helium or its mixing Thing.

6. the content of the method according to any one of claim 1 to 5, wherein nitrogen in the admixture of gas is small In or equal to 4% percent by volume.

7. the content of the method according to any one of claim 1 to 6, wherein nitrogen in the admixture of gas is high In or equal to 1.5% percent by volume.

8. the method according to any one of claim 1 to 7, wherein step e include making 1100 DEG C of the Guan Cong extremely It is subjected to described hot-extrudable at a temperature of in the range of 1200 DEG C, and is subjected to from the cross-sectional area in the range of 92% to 98% Reduce.

9. the method according to any one of claim 1 to 8, wherein step f include making the pipe in the feelings not preheated Cold deformation is subjected under condition.

10. the method according to any one of claim 1 to 9, wherein step f include making the pipe be subjected to from 50% Cross-sectional area in the range of to 95% reduces.

11. the method according to any one of claim 1 to 10, wherein the cold deformation is Pi Geershi tube rollings.

12. according to the method for claim 11, wherein in the Pi Geershi tube rollings step, subtract in the wall thickness of the pipe Relation between small and external diameter reduces is expressed as Q values, wherein

Q- values=(Wallh-Wallt) * (Odh-Wallh)/Wallh ((Odh-Wallh)-(Odt-Wallt)), wherein

The thickness of the wall of Wallh=hollow walls=before Pi Geershi tube rollings

The thickness of the wall of Wallt=tube walls=after Pi Geershi tube rollings

The diameter of pipes of the hollow OD=of Odh=before Pi Geershi tube rollings

The diameter of pipes of the Odt=pipes OD=after Pi Geershi tube rollings,

And wherein Q is in the range of 0.5 to 2.5.

13. according to the method for claim 12, wherein Q is in the range of 0.9 to 1.1.

14. the method according to any one of claim 1 to 13, wherein the two phase stainless steel includes：With weight hundred It is unit to divide ratio

C 0.01-0.025；

Si 0.35-0.6；

Mn 0.8-1.5；

Cr 21-23.5；

Ni 3.0-5.5；

Mo 0.10–1.0；

Cu 0.15-0.70；

N 0.090–0.25；

P is less than or equal to 0.035；

S is less than or equal to 0.003；

The Fe of aequum and inevitable impurity.

15. the method according to any one of claim 1 to 14, wherein the pipe is to be used to guide fuel injection system In fuel to inject fuel into the pipe in the combustion chamber of internal combustion engine.