CN101270426B - Zirconium based alloy for nuclear reactor - Google Patents

Abstract

The invention relates to a Zirconium-based alloy for nuclear reactor, which has the following components: 0.65 to 1.20 weight percent of Stannum, 0.20 to 0.45 weight percent of Niobium, 0.20 to 0.40 weight percent of Ferrum, 0.01 to 0.20 weight percent of Chromium, 0.06 to 0.15 weight percent of Oxygen, one or many kinds of 0.002 to 0.20 weight percent of Nickel, Molybdenum or Vanadium, smaller than 0.015 weight percent of Carbon, smaller than 0.008 weight percent of Nitrogen, and the remaining content is that of Zirconium. The Zirconium-based alloy of the invention has the advantages of the excellent uniform corrosion resistance and nodular corrosion resistance, the higher creep resistance and anti-fatigue property and the anti-irradiation growth performance.

Description

The zirconium base alloy that is used for nuclear reactor

Technical field

The present invention relates to zirconium-based alloy material, be specifically related to a kind of zirconium-based alloy material that is used for nuclear reactor.

Background technology

In the evolution of light-water reactor such as boiling-water reactor and pressurized-water reactor, fuel design has proposed very high requirement to the reactor core structure parts, and as fuel element can, screen work, guide pipe etc., these parts are made with Zr-2 and Zr-4 alloy usually.The design of high fuel burnup requires to prolong the residence time and the raising coolant temperature of these parts in heap, and this has produced the potential corrosion and inhaled the hydrogen problem the zirconium alloy parts.

The reaction of zirconium water can take place in zirconium alloy in the light-water reactor environment, form ZrO at the zirconium alloy parts surface ₂Film.Commitment in oxidation forms fine and close black oxide film, has protectiveness, and oxide film has monocline, four directions, cube heterogeneous structure.Along with the carrying out of oxidation, rate of oxidation can be transferred, and turnover rear oxidation film skin cavity or crackle constantly occur and loses protectiveness, and the new compact oxidation layer of can constantly growing on matrix and the interfacial oxide film.Therefore the corrosion characteristics of zirconium alloy is exactly the repetitive process of the turnover of the growth of zone of oxidation on matrix and the interfacial oxide film and surface oxide layer, the porous oxide skin of the unprotect that the final generation of this process is thicker.And, in the boiling water environment, also nodular corrosion can occur, thereby limit zirconium alloy cladding work-ing life.

Owing to contain the lithium hydroxide of adjusting the pH value in the pressurized water reactor refrigerant, and contain the boric acid of controlling initial reactivity, B ¹⁰Through (n, α) corrosion of zirconium alloy has been quickened in the existence of the lithium that produces of reaction decomposes, the acceleration problem of zirconium alloy component corrosion occurs causing under the extreme condition of high lithium concentration so need consider regional area.

Although corrosion resistance nature is made moderate progress by studying improved Zr-4 alloy, but higher lithium concentration in the higher burnup of the requirement of nuclear-power reactor development, longer refulling cycle, higher coolant temperature, the refrigerant, longer residence time in the reactor core, these high requests have increased the corrosion load of zirconium alloy parts.

To the high request that fuel sheath proposes, launched the research of novel zirconium alloy at the Nuclear Power Technology development in the world.The GEORGE P.SABOL of US Westinghouse company has reported " development of high burnup involucrum alloy " (" Development of a Cladding Alloyfor High Burnup " in the 8th zirconium alloy international symposium, Zirconium in the Nuclear Industry:Eighth InternationalSymposium, ASTM STP 1023, L.F.P.Van Swan and C, M, Eucken, Eds., American Society for Testing and Materials, Philadelphia, 1989,227-244), announced the result of study of the Zr-Nb-Sn-Fe alloy that is referred to as ZIRLO, its nominal composition is Zr-1.0wt%Nb-1.0wt%Sn-0.1wt%Fe.This alloy has improved corrosion resistance nature.GEORGE P.SABOL has reported " the in-pile corrosion behavior of ZIRLO and Zr-4 alloy " (" In-Reactor Corrosion Performance of ZIRLO and Zircaloy-4 " once more in the tenth zirconium alloy international symposium, Zirconium in the Nuclear Industry:Tenth International Symposium, ASTM STP1245, A.M.Garde and E.R.Bradley, Eds., American Society for Testing andMaterials, Philadelphia, 1994,724-744), showed that ZIRLO has corrosion resistance nature and anti-hydrogen and the creep-resistant property inhaled in the better heap than Zircaloy-4.The patent of invention of US Westinghouse company (CN1404532) has been stipulated a kind of erosion resistance zirconium base alloy that is used in the nuclear fuel coating, be to be made by the zirconium alloy of low tin content, the zirconium alloy of low tin content is elementary composition by following weight per-cent basically: the Nb of 0.60-2.0; When Sn was 0.25, Fe was 0.50; When Sn was 0.40, Fe was 0.35-0.50; When Sn was 0.50, Fe was 0.25-0.50; When Sn was 0.70, Fe was 0.05-0.50; When Sn was 1.0, Fe was 0.05-0.50; Wherein, the weight percentage sum of Fe and Sn is greater than 0.75, and other other component is no more than 0.50, and surplus is Zr.

Nikulina in the 11 zirconium alloy international symposium, A.V. reported " as the E635 zirconium alloy of VVER and RBMK reactor fuel rod involucrum and component materials " (" Zirconium Alloy E635as a Material for Fuel Rod Cladding and Other Components of VVER andRBMK Cores ", Zirconium in the Nuclear Industry:Eleventh InternationalSymposium, ASTM STP 1295, E.R.Bradley and G.P.Sabol, Eds., AmericanSociety for Testing and Materials, Philadelphia, 1996,785-804), the composition of having announced E635 is Zr-1.0～1.4wt%Nb-0.9～1.1wt%Sn-0.3～0.5wt%Fe.The out-pile performance of this alloy is better than Zircaloy-4 and E110 alloy.The complete graduate patent of invention of Russia's scientific research inorganic materials (CN 1125885C) of Russia has stipulated that a kind of zirconium base alloy (by weight percentage) contains: the Nb of 0.50-3.0; 0.50-2.0 Sn; 0.30-1.0 Fe; 0.002-0.2 Cr; 0.03-0.04 C; 0.04-0.15 O; 0.002-0.15 Si; 0.001-0.4 W, Mo or V; Surplus is Zr.

Do not provide the anti-nodular corrosion behavior of alloy in 500 ℃ of steam in these patents of invention.The anti-all even nodular corrosion that it has been generally acknowledged that the zirconium alloy that is used for the reactor core structure material is most important corrosive nature requirement.Corrosive nature at out-pile check zirconium alloy comprises: 360 ℃ of deionized waters; 360 ℃ contain the lithium aqueous solution; The corrosion test of 400 ℃, 500 ℃ steam.Think that test in 360 ℃ of aqueous solution and 400 ℃ of steam is applicable in pressurized-water reactor and use, 360 ℃ of tests that contain in the lithium aqueous solution more are applicable in the high lithium concentration operating mode of pressurized-water reactor to be used, and the test in steam more than 500 ℃ is applicable in boiling-water reactor to be used.

Summary of the invention

The object of the present invention is to provide a kind of have better anti-all even nodular corrosion performance, the zirconium base alloy that is used for nuclear reactor that has higher creep resistance and fatigue characteristic, has anti-irradiation growth performance.

The present invention is achieved in that a kind of zirconium base alloy that is used for nuclear reactor, and it is as follows that it contains alloy component: Sn, its weight percent are 0.65%～1.20%; Nb, its weight percent are 0.20%～0.45%; Fe, its weight percent are 0.20%～0.40%; Cr, its weight percent are 0.01%～0.20%; O, its weight percent are 0.06%～0.15%; Among Ni, Mo or the V one or more, its weight percent are 0.002%～0.20%; C, its weight percent is less than 0.015%; N, its weight percent is less than 0.008%; Its surplus is Zr.

Aforesaid a kind of zirconium base alloy that is used for nuclear reactor, it is as follows that it contains alloy component: Sn, its weight percent are 0.75%～0.85%; Nb, its weight percent are 0.25%～0.35%; Fe, its weight percent are 0.30%～0.35%; Cr, its weight percent are 0.10%～0.20%; O, its weight percent are 0.08%～0.15%.Wherein the weight percent of Ni is 0.002～0.08%, and the weight percent of V is 0.002～0.15%.

Aforesaid a kind of zirconium base alloy that is used for nuclear reactor, it is as follows that it contains alloy component: Sn, its weight percent are 1.00%～1.05%; Nb, its weight percent are 0.25%～0.30%; Fe, its weight percent are 0.30%～0.35%; Cr, its weight percent are 0.05%～0.1%; O, its weight percent are 0.10%～0.15%.Wherein the weight percent of Ni is 0.002～0.08%, and the weight percent of V is 0.002～0.15%.

Aforesaid a kind of zirconium base alloy that is used for nuclear reactor, the weight percent of its Sn is 1.0%, and the weight percent of Nb is 0.3%, and the weight percent of Fe is 0.3%, and the weight percent of Cr is 0.1%, the weight percent of O is 0.1%.Wherein the weight percent of Ni is 0.002～0.08%, and the weight percent of V is 0.002～0.15%.

Effect of the present invention is: zirconium base alloy provided by the invention is to being referred to as the further adjustment of N18 alloying constituent, can satisfy of the requirement of light-water reactor high burnup, can be used as parts such as light-water reactor core structural material such as fuel element can, screen work, guide pipe core structural material.Improved in the out-pile pure water anti-uniform corrosion performance in lithium hydroxide aqueous solution particularly by the pipe plate product of zirconium base alloy of the present invention preparation, improved the anti-nodular corrosion performance in high-temperature steam, can think these zirconium base alloys in reactor, use had better anti-all even nodular corrosion performance, higher creep resistance and fatigue characteristic, anti-irradiation growth performance.Zirconium base alloy of the present invention is applicable to the zirconium alloy parts of high burnup fuel assembly, the fuel assembly that adopts this zirconium base alloy to make can improve the reliability of safe operation under the high burnup condition, has the superior corrosion resistance energy in High Temperature High Pressure pure water and steam and lithium hydroxide aqueous solution.Zirconium-based alloy material of the present invention, it can guarantee to have good use properties in the reactor core rigorous environment by the equiaxial α-Zr crystal grain and equally distributed tiny second microtexture formed of particle mutually.

Embodiment

Below in conjunction with specific embodiment the zirconium base alloy that is used for nuclear reactor of the present invention is further described.

Sn-Nb-Fe-Cr-Ni-O zirconium base alloy component of the present invention is listed in the table 1 in detail, the weight percent of C is less than 0.015% in this zirconium base alloy, the weight percent of N is less than 0.008%, and its surplus is Zr (as having the standard-required that other unavoidable impurities should meet nuclear-used zirconium alloy among the Zr).

Table 1Sn-Nb-Fe-Cr-Ni-O zirconium base alloy component

Sn-Nb-Fe-Cr-Mo-O zirconium base alloy component of the present invention is listed in the table 2 in detail, the weight percent of C is less than 0.015% in its interalloy, the weight percent of N is less than 0.008%, and its surplus is Zr (as having the standard-required that other unavoidable impurities should meet nuclear-used zirconium alloy among the Zr).

Table 2Sn-Nb-Fe-Cr-Mo-O zirconium base alloy component

Sn-Nb-Fe-Cr-V-O zirconium base alloy component of the present invention is listed in the table 3 in detail, the weight percent of C is less than 0.015% in its interalloy, the weight percent of N is less than 0.008%, and its surplus is Zr (as having the standard-required that other unavoidable impurities should meet nuclear-used zirconium alloy among the Zr).

Table 3Sn-Nb-Fe-Cr-V-O zirconium base alloy component

Sn-Nb-Fe-Cr-O zirconium base alloy component of the present invention is listed in the table 4 in detail, the weight percent of C is less than 0.015% in its interalloy, the weight percent of N is less than 0.008%, and its surplus is Zr (as having the standard-required that other unavoidable impurities should meet nuclear-used zirconium alloy among the Zr).

Table 4Sn-Nb-Fe-Cr-O zirconium base alloy component

Sn-Nb-Fe-Cr-O zirconium base alloy component of the present invention is listed in the table 5 in detail, the weight percent of C is less than 0.015% in its interalloy, the weight percent of N is less than 0.008%, and its surplus is Zr (as having the standard-required that other unavoidable impurities should meet nuclear-used zirconium alloy among the Zr).

Table 5Sn-Nb-Fe-Cr-O zirconium base alloy component

The preparation of the zirconium base alloy of the invention described above is carried out according to following steps:

(1) nuclear level zirconium sponge and other are added the alloy mixing raw material that element is mixed with required weight;

(2) mixing raw material is made electrode, adopt the vacuum consumable arc-melting method to make alloy cast ingot;

(3) alloy cast ingot is forged in 900 ℃ of-1100 ℃ of β phase temperature ranges, be swaged into required shape base material;

(4) with the base material 1000 ℃ of-1050 ℃ of β heat phase homogenizing, and quench treatment;

(5) the base material after will quenching carries out hot-work at 600～750 ℃ of alpha phase zones;

(6), carry out process annealing 560～700 ℃ of α phase temperature ranges, until being processed into required section bar with the repeatedly cold working of base material after the hot-work;

(7) in 440 ℃-620 ℃, eliminate stress or the final annealing of recrystallize is handled, thereby obtain the finished product zirconium-based alloy material.

Will consider when neutron effect, production cost and workability are selected alloying element, secondly be the influence of each alloying element of detailed evaluation to erosion resistance, mechanical property and creep behaviour, also will determine the consumption of alloy system and every kind of alloying element then.Zirconium base alloy of the present invention has better anti-all even nodular corrosion performance, has higher creep resistance and fatigue characteristic, has anti-irradiation growth performance, and particular case is as follows:

(1) zirconium (Zr): by the consideration to the neutron absorption factor, the present invention selects zirconium as fundamental element, also considers the neutron absorbing state of adding other alloying elements in the basic zirconium to simultaneously.

(2) tin (Sn): α-phase that tin can stabilised zirconia can increase its intensity, and can offset nitrogen to the corrosive deleterious effect.When the tin consumption after a little while, can not reach required effect.Sn adds content at 0.65-1.20 weight % among the present invention, and it can guarantee that alloy has superior corrosion resistance energy and good mechanical performance.

(3) niobium (Nb): β-phase that niobium can stabilised zirconia, niobium has higher strengthening effect to zirconium.The niobium consumption is too much to the thermal treatment sensitivity.Nb adds content at 0.2-0.45 weight % among the present invention, and it can guarantee that alloy has superior corrosion resistance energy and good mechanical performance in pure water and lithium hydroxide aqueous solution.

(4) iron (Fe): iron can improve the erosion resistance and the mechanical property of alloy, but the consumption of iron is too much or very fewly all adverse influence can be arranged.The content that Fe adds among the present invention is at 0.20-0.40 weight %, and it can guarantee that alloy has the superior corrosion resistance energy in pure water and lithium hydroxide aqueous solution.

(5) chromium (Cr): chromium is similar to the effect of iron, can improve the erosion resistance of alloy.The content that Cr adds among the present invention is at 0.01-0.20 weight %, and it can guarantee that alloy has the superior corrosion resistance energy in pure water and steam.

(6) oxygen (O): α-phase that oxygen can stabilised zirconia, add oxygen in the alloy and can improve yield strength.The content that oxygen adds among the present invention is at 0.06-0.15 weight %, and it can guarantee that alloy has enough mechanical propertys and creep-resistant property.

(7) molybdenum (Mo): molybdenum not only can improve the intensity and the creep resistance of alloy effectively, also can improve corrosion resistance.But the effect that inappropriate molybdenum content can not play.The content that Mo chooses among the present invention is at 0.002-0.20 weight %, and it can guarantee that alloy takes off at Sn content and has good mechanical performance and corrosion resistance in limited time.

(8) vanadium (V): vanadium is similar to the molybdenum effect, can improve the mechanical property of alloy, also can improve corrosion resistance with other alloying element appropriate combination the time.Add the effect that inappropriate content of vanadium can not play.The content that V adds among the present invention is at 0.002-0.20 weight %, and it can guarantee that alloy has good mechanical performance and corrosion resistance when Sn and Nb content are low.

(9) nickel (Ni): nickel can improve the mechanical property and the erosion resistance of alloy, but nickel can increase hydrogen and cause hydrogen embrittlement in zirconium.The content that Ni adds among the present invention is at 0.002-0.2 weight %, and it can guarantee that alloy has the superior corrosion resistance energy in pure water and steam.

(10) carbon (C): the carbon in the alloy exists as the unavoidable impurities element and content when higher, can reduce the corrosion resistance of alloy.The weight percent of C is less than 0.015% among the present invention, and it can guarantee that alloy has the superior corrosion resistance energy in high-temperature water and steam.

(11) nitrogen (N): the nitrogen in the alloy exists as the unavoidable impurities element and content when higher, can reduce the corrosion resistance of alloy.The weight percent of N is less than 0.008% among the present invention, and it can guarantee that alloy has the superior corrosion resistance energy in high-temperature water and steam.

Zirconium base alloy sheet coupon reference Zr-4 alloy of the present invention is tested under identical etching condition, and gained the results are shown in table 4 and the table 5.

Table 4 zirconium base alloy sheet coupon of the present invention and Zr-4 alloy corrosion test-results are relatively

As shown in table 4, etching condition is that 360 ℃, 18.6MPa contain the 70 μ g/g lithium aqueous solution (joining in the deionized water with the lithium hydroxide form); 500 ℃, 10.3MPa deionized water steam.Etching time in 360 ℃ of environment is 300 days (d); Etching time in 500 ℃ of environment is 500 hours (h).Table 4 has provided the erosion rate of every kind of zirconium base alloy, for the ease of comparing the relative performance of zirconium base alloy, has also provided relative erosion rate in table 4.Corrosion test result shows that with Zr-4 alloy phase ratio, zirconium base alloy of the present invention all has better corrosion resistance nature in 360 ℃ of lithium water and 500 ℃ of steam, and good anti-accelerated corrosion performance is all arranged in lithium hydroxide aqueous solution.

Table 5 zirconium base alloy sheet coupon of the present invention and Zr-4 alloy corrosion test-results are relatively

As shown in table 5, etching condition is 360 ℃, 18.6MPa deionized water; 400 ℃, 10.3MPa deionized water steam.Etching time in 360 ℃ of water and 400 ℃ of steam ambient all is 300 days (d).Table 5 has provided the erosion rate of every kind of zirconium base alloy, for the ease of comparing the relative performance of zirconium base alloy, has also provided relative erosion rate in table 5.Corrosion test result shows that the same with the Zr-4 alloy, zirconium base alloy of the present invention also has excellent corrosion resisting performance in 400 ℃ of steam.

Claims (6)

1. zirconium base alloy that is used for nuclear reactor is characterized in that:

It is as follows that it contains alloy component:

Sn, its weight percent are 0.65%～1.20%;

Nb, its weight percent are 0.20%～0.45%;

Fe, its weight percent are 0.20%～0.40%;

Cr, its weight percent are 0.01%～0.20%;

O, its weight percent are 0.06%～0.15%;

Ni, its weight percent are 0.002%～0.20%;

C, its weight percent are 0.010～0.015%;

N, its weight percent are 0.005～0.008%;

Its surplus is Zr;

Perhaps it to contain alloy component as follows:

Sn, its weight percent are 0.65%～1.20%;

Nb, its weight percent are 0.20%～0.45%;

Fe, its weight percent are 0.20%～0.40%;

Cr, its weight percent are 0.01%～0.20%;

O, its weight percent are 0.06%～0.15%;

V, its weight percent are 0.002%～0.20%;

C, its weight percent are 0.012～0.015%;

N, its weight percent are 0.006～0.008%;

Its surplus is Zr;

Perhaps it to contain alloy component as follows:

Sn, its weight percent are 0.65%～1.20%;

Nb, its weight percent are 0.20%～0.45%;

Fe, its weight percent are 0.20%～0.40%;

Cr, its weight percent are 0.01%～0.20%;

O, its weight percent are 0.06%～0.15%;

Multiple among Ni, Mo or the V, its weight percent is 0.002%～0.20%;

C, its weight percent are greater than 0 and less than 0.015%;

N, its weight percent are greater than 0 and less than 0.008%;

Its surplus is Zr.

2. a kind of zirconium base alloy that is used for nuclear reactor according to claim 1, it is characterized in that: it is as follows to contain alloy component in this zirconium base alloy:

Sn, its weight percent are 0.75%～0.85%;

Nb, its weight percent are 0.25%～0.35%;

Fe, its weight percent are 0.30%～0.35%;

Cr, its weight percent are 0.10%～0.20%;

O, its weight percent are 0.08%～0.15%.

3. a kind of zirconium base alloy that is used for nuclear reactor according to claim 2 is characterized in that: when containing Ni in this zirconium base alloy, the weight percent of Ni is 0.002～0.08%; When containing V in this zirconium base alloy, the weight percent of V is 0.002～0.15%.

4. a kind of zirconium base alloy that is used for nuclear reactor according to claim 1, it is characterized in that: it is as follows to contain alloy component in this zirconium base alloy:

Sn, its weight percent are 1.00%～1.05%;

Nb, its weight percent are 0.25%～0.30%;

Fe, its weight percent are 0.30%～0.35%;

Cr, its weight percent are 0.05%～0.1%;

O, its weight percent are 0.10%～0.15%.

5. a kind of zirconium base alloy that is used for nuclear reactor according to claim 4, it is characterized in that: the weight percent of Sn is 1.0% in this zirconium base alloy, the weight percent of Nb is 0.3%, the weight percent of Fe is 0.3%, the weight percent of Cr is 0.1%, and the weight percent of O is 0.1%.

6. according to claim 4 or 5 described a kind of zirconium base alloys that are used for nuclear reactor, it is characterized in that: when containing Ni in this zirconium base alloy, the weight percent of Ni is 0.002～0.08%; When containing V in this zirconium base alloy, the weight percent of V is 0.002～0.15%.