• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    This invention relates to a welding material of ferrite-austenite two-phase stainless steel capable of producing a weld metal having a high resistance to corrosion, particularly in an environment containing nitric acid, and the method of application therefor. The welding material consists essentially of not more than 0.03% of C, not more than 2.0% of Si, not more than 2.0% of Mn, 25 to 30% of Cr, 7 to 12% of Ni, not more than 0.35% of N, and the balance Fe and inevitable impurities. The Ni balance value given by the following formula ranges between -11.7 and -6.
    公开号:SU1438600A3
    申请号:SU843707305
    申请日:1984-02-16
    公开日:1988-11-15
    发明作者:Аоки Масахиро;Сайто Киити;Есида Такеси;Икеда Норияси;Такахаси Масанори;Охкубо Масао;Нагаяма Масааки
    申请人:Ниппон Стэйнлес Стил Ко,Лтд (Фирма);Сумитомо Кемикал Компани Лимитед (Фирма);
    IPC主号:
    专利说明:


    SP
    i The invention relates to welding, in particular (to welding materials from a two-phase ferritio-austenitic measuring steel.
    The purpose of the invention is to increase the corrosion resistance of the welded metal: a weld in a medium containing nitric acid,
    ; Carbon in the composition of the welding mate- rial is an element that contributes to the effective formation of auste- nita. However, the carbon content must be limited because it forms carbides in the weld: weld metal, which in turn increases the probability of intercrystalline corrosion in the environment of nitric acid. The carbon content is limited to 0.009 - 0.024 wt.%. Silicon and manganese are used; they are used as deoxidizing agents in the smelting process of the welding material. The optimum content of these components is the welding material, wt.%: cr mn.sh 0,57-1,54 and manganese on, 54-1,67.
    Chromium in the composition of the welding material is necessary both for the formation of ferrite in the weld, and for the formation of a two-phase structure of austenite and ferrite. Chromium is necessary to provide a biphasic structure of austenite and ferrite, as well as to provide corrosion resistance in nitric acid. To ensure good corrosion resistance, it is necessary to introduce chromium, not less than 23.88 wt.%. With proper equilibrium of the structure, the corrosion resistance to nitric acid increases with i increasing the chromium content. However, when the chromium content is more than 29.30 wt.%, The hardness increases in an undesirable degree and the welding fabrication process becomes difficult, and also significantly deteriorates. viscosity and ductility of the weld material, which in turn improves the performance of the welded joint. Nickel is involved in the formation of austenite, which plays an important role (along with chromium) in the formation of a two-phase structure. Nickel is also needed as an element that reduces the active dissolution rate, i.e. general corrosion. Considering that the weld metal undergoes rapid heating and cooling, it is desirable to
    ,
    0 5 0
    0 5 0 5
    0
    five
    Nickel content is 7.23-11.94 wt.%, which is optimal from the point of view of structure (between the content of austenite and ferrite) and corresponds to the content of chromium, which is the main ferrite-forming component.
    Nitrogen is a strong austenitic forming material (like carbon and nickel) and is effective from the point of view of preventing such types of corrosion as pitting corrosion, but the increased nitrogen content causes the appearance of gas bubbles in the steel ingot in the production of stainless steel and makes it difficult processing. The optimum nitrogen content in the welding material is 0.075-0.19% by weight.
    The welding material provides austenitic ferritic two-phase structure when welding austenitic ferritic two-phase stainless steels.
    The austenite content in the weld area should be in the range of 40–80% by volume by controlling the nickel content in the range from –11.47 to –7.0, i.e. the content of the components is limited by the balancing amount of nickel.
    -11.47 balancing amount of Ni; -7.0, where balancing amount of Ni Ni,% +.0.5 x Mn,% + -f- 30 X (C + N),% - 1.1 (Cg,% + 1.5 X Si,%) + 8.2.
    Only with such a ratio of components (and not due to the effect of individual components) is corrosion resistance of the welds in the medium of nitric acid ensured.
    If the amount of nickel is less than -11.47, the austenite content in the weld falls below 40% by volume, which contributes to the tendency of selective corrosion between the elements being welded. With such a balancing amount of nickel, nevo. It is possible to increase the corrosion resistance to nitric acid even by increasing the chromium content. In addition, an increase in the chromium content shifts the balancing amount of nickel in the direction of decreasing the corrosion resistance in nitric acid, as a result of which the corrosion rate increases. An increase in the balancing amount of nickel above -7.0 also leads to an increase in the austenite content of up to 80% by volume and higher, which deteriorates the corrosion resistance of the weld material to intercrystalline corrosion, as the structure approaches the single-phase austenitic and becomes uneconomical because it requires an increase expensive nickel content. In addition, the hot workability of the metal is deteriorated.
    Samples of welded elements for welding were made from two-phase ferritic-austenitic stainless steel using various welding consumables listed in the table. These samples were subjected to five rotating cycles in boiling
    nitric acid with a duration of 48 h I
    when the concentration of the nitric acid solution is 65% with the addition of chromate ion in the amount of iOO parts per million. During each test cycle, the solution was updated so that the solution volume per unit surface area of the sample remained at least 20 cm / cm.
    After the tests, microslip samples were tested for intercrystallite corrosion and the relationship between the chemical composition of the welding material and the degree of intercrystallite corrosion was determined. The test results are shown in the table.
    As follows from the data presented, on samples welded using the proposed welding material, intergranular corrosion is almost not labile, while on samples welded using a welding material with an equilibrium amount of nickel that does not meet the condition from -11, A7 to - 7.0 jtMeeT place of corrosion.
    权利要求:
    Claims (1)
    [1]
    Formula of invention
    Welding material of two-phase ferritic-austenitic stainless steel containing carbon, silicon, manganese, chromium, nickel, nitrogen, iron, characterized in that, in order to increase the corrosion resistance of the weld metal in a medium containing nitric acid, the composition contains the following components: ratio, wt.%:
    Carbon 0,009-0,024 Silicon. 0.57-1.54 Manganese 0.54-1.67 Chromium 25.88-29.30
    .Nickel7.23-11.94
    Nitro0,075-0,19
    Iron Rest, the content of the components of the composition satisfies the following form:
    -1 1.47 Ni,% + 0.5 Mn,% + 30 (C + N),% -1.1 (Cg,% + -1-1-, 5 Si,%) + 8.2 -7 , 0.
    0,0100,631.00
    0,0090,601,04
    0,0131,541,67
    0.0241.031.45
    0,0170,620,66
    0,0141,390,54
    0,0150,570,58
    25.88 7.310.101 Else
    27.57 10,320,105 The same
    29.30 8.020.152 - 26, 91 9.010.075 - 26, 74 7.230.09 - 28, 50 11, 19 - 26, 01 10.920.09 - Note. O-intergranular corrosion is not observed;
    & - some intergranular corrosion; X - strong intergranular corrosion.
    Table continuation
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    US4222772A|1980-09-16|Structural steel plate highly resistant to nitrate stress corrosion cracking
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    JP3422880B2|2003-06-30|High corrosion resistance martensitic stainless steel with low weld hardness
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    同族专利:
    公开号 | 公开日
    US4585479A|1986-04-29|
    FR2541160A1|1984-08-24|
    FR2541160B1|1986-10-17|
    BE898926A|1984-06-18|
    GB2136017B|1986-04-23|
    DE3405588A1|1984-08-23|
    JPS59150692A|1984-08-28|
    GB2136017A|1984-09-12|
    GB8403745D0|1984-03-14|
    JPS635196B2|1988-02-02|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    RU2584621C2|2011-01-28|2016-05-20|Эксонмобил Апстрим Рисерч Компани|Weld metals with high viscosity and excellent resistance to plastic breaking|FR895210A|1942-06-04|1945-01-18|Deutsche Edelstahlwerke Ag|Application of nickel-chromium steel as a welding wire or rod|
    FR1318431A|1961-03-31|1963-02-15|Boehler & Co Ag Geb|Filler material for arc welding|
    US3537846A|1966-10-21|1970-11-03|Sandvikens Jernverks Ab|Welding wire and welding strip for cladding stainless layers on unalloyed and low-alloyed structural steels and for other purposes where a stainless filler material with high chromium and nickel contents is required|
    US3551121A|1968-09-23|1970-12-29|Teledyne Inc|Digester for use in paper making and allied industries|
    US4032367A|1974-10-28|1977-06-28|Langley Alloys Limited|Corrosion resistant steels|
    US4002510A|1975-05-01|1977-01-11|United States Steel Corporation|Stainless steel immune to stress-corrosion cracking|
    JPS5547370A|1978-09-30|1980-04-03|Kubota Ltd|Stainless cast steel for cryogenic temperature use|
    JPH035338B2|1984-07-17|1991-01-25|Honda Motor Co Ltd|
    US7280343B1|2006-10-31|2007-10-09|Avx Corporation|Low profile electrolytic capacitor assembly|
    JP6127751B2|2013-06-12|2017-05-17|富士電機株式会社|Power converter failure monitoring device|US4721600A|1985-03-28|1988-01-26|Sumitomo Metal Industries, Ltd.|Superplastic ferrous duplex-phase alloy and a hot working method therefor|
    DE3739903A1|1987-11-25|1989-06-08|Bayer Ag|USE OF A CHROMIUM ALLOY|
    US5201583A|1989-08-17|1993-04-13|British Technology Group Limited|Temperature history indicator|
    GB8918774D0|1989-08-17|1989-09-27|Nat Res Dev|Temperature llistory indicator|
    NL1014512C2|2000-02-28|2001-08-29|Dsm Nv|Method for welding duplex steel.|
    US7235212B2|2001-02-09|2007-06-26|Ques Tek Innovations, Llc|Nanocarbide precipitation strengthened ultrahigh strength, corrosion resistant, structural steels and method of making said steels|
    US7320245B2|2002-11-18|2008-01-22|Saudi Arabian Oil Company|Corrosion testing apparatus|
    CN101972903B|2010-10-08|2012-08-29|洛阳双瑞特种装备有限公司|Repair welding wire for flaws of cast two-phase stainless steel 6A|
    MX355893B|2011-02-14|2018-05-04|Nippon Steel & Sumitomo Metal Corp|Welded duplex stainless joint.|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    JP58025190A|JPS635196B2|1983-02-17|1983-02-17|
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