CN101691641B - Smelting process for steel ingot of main pipe line of primary loop in AP1000 nuclear power technology - Google Patents

Abstract

The invention provides a smelting process for a steel ingot of a main pipe line of a primary loop in AP1000 nuclear power technology, which comprises the following steps: 1) producing a consumable electrode by using an electric arc furnace and an AOD furnace, and adding 0.05 to 0.10 percent of niobium and 0.01 to 0.03 percent of zirconium during smelting; and 2) producing the steel ingot by using an electroslag remelting method: adopting 316LN Benxi steel as an underlayer, adopting the Benxi steel to start an arc, and adopting TiC as an arc striking agent. The mechanical property and the grain size of the steel ingot after smithing are ensured without generating a crackle during smithing by using a rational and effective smelting method.

Description

The smelting technology of AP1000 nuclear power technology one primary loop piping steel ingot

(1), technical field the present invention relates to a kind of smelting technology of pipeline steel ingot, specifically a kind of smelting technology of AP1000 nuclear power technology one primary loop piping steel ingot.

(2), the present China of background technology in a large number in Ningde of building, Fuqing, Fan family mountain, red along the river, Nuclear power plants such as Chang River, adopt two generation the modified form nuclear power technology, according to the RCC-M index formation.One primary loop piping adopts and contains 12～20% ferritic austenite one ferritic stainless steel (Z3CN20-09M) materials, produces elbow, straight tube by the method for casting, is welded internal diameter of the pipeline Φ 698.5～787.4mm, 40 years lives then.

Adopt the Z3CN20-09M material, solved the stainless welding crack contradiction of heavy wall type, under the situation that lacks large-scale tubulation apparatus, be one and well select.But in the life-time service process, may produce the fragility precipitate, the two-phase performance is changed at the two-phase interface place.In nuclear island, a primary loop piping is used for guaranteeing to flow through the refrigerant normal circulation of nuclear reactor core, and its performance will directly have influence on the safe operation of Nuclear power plants; In addition because straight tube all adopts welding process to be connected with elbow, so the inspection of butt welded seam and heat affected zone is an important job of Nuclear power plants.At present, UT (Ultrasonic Testing) is mainly adopted in inservice inspection, and the property visited of cast structure is very poor, is difficult to find that the early stage inefficacy that occurs changes, and is unfavorable for life-time service.

In 2006, China and US Westinghouse company signed the agreement of introducing the AP1000 nuclear power technology.The AP1000 nuclear power technology all be better than in safety performance, on the construction period two generation the modified form nuclear power technology.The primary loop piping of AP1000 adopts the 316LN austenitic stainless steel material of control nitrogen, solves performance, structure stability and inservice inspection reliability, 60 years lives by forged method synthesis.

At 4 nuclear power generating sets that China Zhejiang San Men, Haiyang, Shandong are built, be the Nuclear power plants that adopts the AP1000 nuclear power technology to build in the world first.In nuclear island primary device, a primary loop piping is unique domestic procurement project.

The home and abroad does not successfully forge the precedent of flawless AP1000 main pipe line at present.

Will successfully produce forging one primary loop piping that meets the demands, its manufacturing process comprises: smelting, forging, machining, bend, main technique such as thermal treatment.Wherein smelting is the basis of whole technology, and how controlling composition, inclusion and air content all will directly influence the forgeability of material.

In US Westinghouse company's technical qualification, to the composition of material and forge the back mechanical property requirements shown in table 1,2:

Table 1 main pipe line chemical ingredients (%)

?C

Si

Mn

?P

?S

Cr

Ni

Mo

Cu

Co

N

?≤0.020

≤0.75

≤1.50

?≤0.025

?≤0.005

16.00 ～ 18.00

11.00 ～ 14.00

2.00 ～ 3.00

≤0.10

≤0.05

0.10 ～ 0.16

Table 2 main pipe line mechanical property

Annotate: three samples of a position are one group; MV is the mean value of three samples in a group; SV is the Schwellenwert that allows a sample in a group.

In addition, AP1000 main pipe line requirement grain fineness number is an ASTM2 level or thinner.

The AP1000 main pipe line adopts monobloc forging formula structure stainless steel hammer welded pipe, comprises two circulation loops, and each loop comprises a hot arc (ligation heap and vapour generator) and two cold section (being connected vapour generator and main pump).Hot arc manufacture difficulty maximum wherein, nearly 9 tons of hot arc finished weights, needed forging steel ingot surpasses 70 tons, how to guarantee that the crystalline quality of steel ingot and forgeability are the problems that will consider when smelting.Guarantee not crack when steel ingot forges back mechanical property, grain fineness number and forging, consider following problem:

(1) with final mechanical property and to improve its forgeability be reference, the composition of appropriate design material;

(2) adopt micro-alloying technology, the crystal structure of refinement material.

(3) adopt reasonable, effective smelting process, thinning microstructure and minimizing gas, inclusion content, the forgeability of raising material.

At present, seminess all takes place in the steel ingot that the conventional two vacuum method of employing is smelted when forging.The technology of flawless large-scale steel ingot is not at home, appear in the newspapers outward as yet when successfully smelting AP1000 one primary loop piping and forging.

(3), summary of the invention technical problem to be solved by this invention is, a kind of smelting technology of AP1000 nuclear power technology one primary loop piping steel ingot is provided, adopts reasonable, effective smelting process to guarantee not crack when steel ingot forges back mechanical property, grain fineness number and forging.To overcome the defective of existing technology.

In order to solve the problems of the technologies described above, the present invention has adopted following technical scheme.

A kind of smelting technology of AP1000 nuclear power technology one primary loop piping steel ingot is characterized in that: comprise following steps:

1), adopt electric arc furnace+AOD stove to produce consumable electrode, add 0.05%～0.10% niobium and 0.01%～0.03% zirconium during smelting, the main pipe line chemical ingredients is as shown in table 3:

Table 3 main pipe line chemical ingredients (%)

C

Si

Mn

P

S

Cr

Ni

Mo

Cu

Co

N

≤0.015

≤0.4

≤1.25

≤0.020

≤0.005

17.00 ～ 18.00

12.00 ～ 13.00

2.00 ～ 2.50

≤0.10

≤0.05

0.10 ～ 0.13

2), the method for esr is produced steel ingot: adopt this steel of 316LN heelpiece, adopt the starting the arc of this steel, adopt TiC as the striking agent.

Positively effect of the present invention is:

(1), the AOD stove can satisfy the condition of producing the 316LN Ultralow Carbon Stainless Steel, and with respect to VOD, its nitrogen content can accurately be controlled.

(2), adopt the method for esr to reduce to be mingled with, crystal grain thinning, acquisition be tending towards axial crystal structure, thereby improve the forgeability of material.

(3), rational chemical guarantees the final mechanical property of material and has good forgeability.When smelting, add a spot of niobium and zirconium, the niobium carbide that the former forms works when metal freezing, and the zirconium nitride that the latter forms works when forging, and reaches the purpose of crystal grain thinning.

(4), adopt this steel of 316LN heelpiece, adopt the starting the arc of this steel, adopt TiC as the striking agent, the carburetting problem in the time of can well solving steel ingot and smelt.

(4), embodiment further describes the present invention below in conjunction with specific examples.

With the main pipe hot leg is that example illustrates technology of the present invention.

Will successfully forge main pipe hot leg, required steel ingot is about 75 tons.Processing step is as follows:

1), adopt electric arc furnace+AOD stove to produce consumable electrode;

When adopting electric arc furnace+AOD stove to produce consumable electrode, consider following problem:

(1), composition design

Rational chemical is the basis that guarantees the final mechanical property of material and have good forgeability.When forging main pipe hot leg, the weight of steel ingot will be above 70 tons, and for the stainless forging of large-scale 316LN, China still lacks experience.In contrast to plain carbon stool, the 316LN stainless steel has higher high temperature strength, in order to improve its forgeability, improve its Forge Heating temperature, and the increase of Heating temperature easily forms δ phase ferrite at austenite grain boundary, when reaching some amount, can sharply reduce the forgeability of material.So first requirement of composition design is control δ phase formation temperature and quantity.In the various alloying constituents shown in the table 1, two kinds of elements of C, N are present in the austenite in gap solid solution mode, can increase substantially Tensile strength; And Cr, Si, Mn, Mo, Ni element are present in the austenite in displacement solid solution mode, and except that Ni reduced Tensile strength, all the other elements all helped the tensile strength of material.From above 2, the main pipe line composition of design is as shown in table 3:

Table 3 main pipe line chemical ingredients (%)

?C

Si

Mn

P

S

Cr

Ni

Mo

Cu

Co

N

?≤0.015

≤0.4

≤1.25

≤0.020

≤0.005

17.00 ～ 18.00

12.00 ～ 13.00

2.00 ～ 2.50

≤0.10

≤0.05

0.10 ～ 0.13

(2), microalloying

Because the finished product have requirement to grain fineness number, and for Cast Stainless Steel, its crystal grain is comparatively thick,,, must increase forged difficulty and workload as reaching the requirement of grain fineness number if when smelting, do not carry out the control of crystal grain.So when smelting, adopt micro-alloying technology to come crystal grain thinning, mainly consider from two aspects: 1. during metal freezing, the crystallization of refinement tissue; When 2. forging, can form two little second phases and separate out, hinder grain growth.Therefore, when smelting, the niobium of adding 0.05%～0.10% and 0.01%～0.03% zirconium, the niobium carbide that the former forms works when metal freezing, and the zirconium nitride that the latter forms works when forging.

2), the method for esr is produced steel ingot: adopt this steel of 316LN heelpiece, adopt the starting the arc of this steel, adopt TiC as the striking agent.

When carrying out esr, consider the problem of steel ingot carburetting.Because room, U.S. west technological standard is very strict for the requirement of carbon, so will take special technology, not carburetting when making remelting when remelting.Conventional smelting process generally is to adopt the Graphite Electrodes slag and adopt the carbon steel heelpiece, because the above two all can make steel ingot carburetting, so be not suitable for the production of a primary loop piping steel ingot.Adopt this steel of 316LN heelpiece, adopt the starting the arc of this steel, adopt TiC, the carburetting problem in the time of can well solving the steel ingot smelting as the striking agent.

Detected result: the consumable electrode chemical ingredients that adopts electric arc furnace+AOD to produce is as shown in table 4:

Table 4 consumable electrode chemical ingredients

Element (%)

C

Si

Mn

P

S

Cr

Mo

Ni

Cu

Co

N

Standard

≤ 0.02

≤ 0.75

≤ 2.00

≤ 0.025

≤ 0.005

16.00 ～ 18.00

2.00 ～ 3.00

11.00 ～ 14.00

≤ 0.10

≤ 0.050

0.10 ～ 0.16

Actual

0.010

0.36

1.33

0.019

0.003

17.32

2.50

12.54

0.075

0.042

0.128

Chemical ingredients is as shown in table 5 behind the esr:

Table 5 ESR ingot chemical ingredients

Element (%)

C

Si

Mn

P

S

Cr

Mo

Ni

Cu

Co

N

Standard

≤ 0.02

≤ 0.75

≤ 2.00

≤ 0.025

≤ 0.005

16.00 ～ 18.00

2.00 ～ 3.00

11.00 ～ 14.00

≤ 0.10

≤ 0.050

0.10 ～ 0.16

Actual

0.010

0.30

1.26

0.024

0.001 5

17.62

2.42

12.21

0.069

0.047

0.138

The finished product mechanical property is as shown in table 6:

Table 6 main pipe line (hot arc) mechanical property

Claims (1)

1. the smelting technology of AP1000 nuclear power technology one a primary loop piping steel ingot is characterized in that: comprise following steps:

1), adopt electric arc furnace+AOD stove to produce consumable electrode, add 0.05%～0.10% niobium and 0.01%～0.03% zirconium during smelting, the main pipe line chemical ingredients is as shown in table 3:

Table 3 main pipe line chemical ingredients (%)

?C Si Mn P S Cr Ni Mo Cu Co N ?≤0.015 ≤0.4 ≤1.25 ≤0.020 ≤0.005 17.00 ～ 18.00 12.00 ～ 13.00 2.00 ～ 2.50 ≤0.10 ≤0.05 0.10 ～ 0.13

2), the method for esr is produced steel ingot: adopt this steel of 316LN heelpiece, adopt the starting the arc of this steel, adopt TiC as the striking agent.