JP2005131700A - Method for joining titanium clad steel with stainless clad steel or titanium clad steel - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a welding method between a titanium clad steel and a stainless clad steel or between titanium clad steels. <P>SOLUTION: In joining a stainless clad steel in which a stainless steel layer is provided on the surface of a base material, with a titanium three-layer clad steel in which a base material, a stainless steel layer and a titanium layer are laminated in this order and in which the stainless steel layer is exposed on the outer surface in the outer periphery, the base material of the stainless clad steel and that of the titanium three-layer clad steel are joined together by overlaying and then, using a stainless steel, cladding by welding is performed on this overlaying weld zone. Thus, this weld zone is joined to both stainless steel layers of the stainless clad steel and the titanium three-layer clad steel, and the overlaying weld zone between the two base materials are simultaneously covered. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a method for joining titanium clad steel and stainless clad steel or titanium clad steel.

  Various materials such as a reaction tank, a reaction tower, and a storage tank in a chemical plant, particularly an inner wall material, are selected depending on the type and composition of contents to be used, use conditions such as reaction temperature, and the like. When reaction conditions are severe or when corrosion is likely to occur, a titanium material made of titanium or an alloy thereof may be used.

  However, if the entire reaction vessel or the like is made of a titanium material, the cost becomes high. For this reason, there are cases in which the entire reaction vessel is manufactured with carbon steel or stainless steel, the inside of which is laminated with titanium steel on the surface of carbon steel or stainless steel, and lined with rolled titanium clad steel. is there.

  By the way, depending on the type and composition of contents to be used, use conditions such as operation temperature, etc., the inner surface of a reaction vessel, a distillation column, etc. may be mixed with not only titanium material but also stainless material. In some cases, it may be necessary to join titanium clad steels inside a reaction vessel, a distillation column, or the like.

  However, since titanium materials are difficult to weld with carbon steel and stainless steel materials, as described above, titanium materials and stainless steel materials may be mixed on the inner surface of a reaction vessel, etc. There was a problem in joining each other.

  Then, this invention aims at providing the method for joining titanium clad steel and stainless clad steel, or joining titanium clad steel.

  This invention solved the said subject by using the joining method of predetermined | prescribed stainless clad steel and titanium clad steel, and the joining method of predetermined | prescribed titanium clad steel. That is, in the invention about the method for joining stainless clad steel and titanium clad steel, the stainless clad steel provided with a stainless steel layer on the surface of the base material, the base material, the stainless steel layer, and the titanium material layer are laminated in this order. The outer surface of the outer peripheral edge is joined by overlay welding the base materials of the stainless clad steel and the titanium trilayer clad steel when joining the titanium trilayer clad steel with the stainless steel layer exposed. The welded portion is joined to the stainless steel layer of both the stainless clad steel and the titanium three-layer clad steel by overlay welding using a stainless steel on the buildup weld, and the base materials It is a method of covering the build-up welded part.

  Moreover, the invention about the joining method of titanium clad steel is as follows. The base material, the stainless material layer, and the titanium material layer are laminated in this order, and the outer surface of the outer peripheral edge portion is a titanium triple layer in which the stainless material layer is exposed. When joining clad steel and titanium double-layer clad steel with a titanium layer on the surface of the base metal, build-up welding is performed on the base materials constituting the above-mentioned titanium tri-layer clad steel and titanium double-layer clad steel And joining the welded portion with the stainless steel layer of the above-mentioned titanium three-layer clad steel by welding build-up using a stainless steel on the build-up welded portion between the base materials. The outer surface of the titanium material layer of the titanium three-layer clad steel is covered with the outer surface of the titanium material layer of the titanium double-layer clad steel so as to cover the weld weld portion between the materials and to cover the weld weld portion made of the stainless material. On the surface Only by a method of bonding titanium material made of plate-like bodies on their surface.

Since the weld overlay of the base metal is welded with stainless steel or covered with a plate made of stainless steel or titanium, it is possible to prevent the base metal from being exposed at the joint. Corrosion and the like can be prevented.
Moreover, this invention can be used for the apparatus used of a terephthalic-acid manufacturing process, for example.

Hereinafter, the present invention will be described in detail.
The joining method according to the present invention is a method of joining titanium clad steel and stainless clad steel or titanium clad steel. In the present invention, there are two types of titanium clad steel. Since these all have a titanium material layer on the outer surface, they are collectively referred to as titanium clad steel.

  The first titanium clad steel has a base material 3b, a stainless material layer 4b, and a titanium material layer 5 laminated in this order as shown in FIGS. 1 (a) and 2 (a). This is a titanium three-layer clad steel 2 with the stainless steel material layer 4b exposed on the outer surface.

  Another titanium clad steel is a titanium double clad steel 2c in which a titanium material layer 5 is provided on the surface of a base material 3c as shown in FIG. 2 (a). The base material 3c may be exposed on the outer surface of the outer peripheral edge of the titanium double-layer clad steel 2c.

In the present invention, the two titanium clad steels may be formed with another metal layer between the base material and the titanium material layer as necessary.
This titanium clad steel is manufactured by laminating carbon steel constituting a base material, a titanium material layer, and, if necessary, stainless steel and a metal plate constituting a stainless steel material layer, and performing exposure and rolling.

First, the joining method of stainless clad steel and titanium three-layer clad steel will be described with reference to FIGS.
As shown in FIG. 1A, the stainless steel clad steel 1 is a clad steel having a base material 3a as a core material and a layer 4a made of a stainless steel material provided on the outer surface. Examples of the base material 3a include carbon steel. Specific examples of the carbon steel include ASTM standards A516-60 (JIS standard: SGV42), A516-65 (JIS standard: SGV46), A516-70 (JIS standard: SGV49), and the like.

  Examples of the stainless steel include various types of SUS. Specific examples include ASTM standards A240-304L (JIS standard: SUS304L), A240-316L (JIS standard: SUS316L), A240-317L (JIS standard: SUS317L).

  The stainless clad steel shown in FIG. 1 (a) is formed of two layers of a base material 3a and a stainless material layer 4a, but if necessary, between the base material 3a and the stainless material layer 4a. Other metal layers may be formed. This stainless clad steel is manufactured by laminating carbon steel constituting the base material 3a, stainless steel constituting the stainless steel layer 4a, and a metal plate used as necessary, and performing exposure and rolling.

  As a material constituting the base material 3b and the stainless material layer 4b constituting the titanium three-layer clad steel 2, the same material as the base material 3a and the stainless material layer 4a used for the stainless clad steel 1 is used. it can.

  Examples of the titanium material constituting the titanium material layer 5 include a material made of pure titanium having an impurity such as iron of 0.35% by weight or less, a material made of an alloy of titanium and another metal, and the like. Specific examples of the pure titanium material include ASTM standards B265-1 (JIS standard: TP-2), B265-2 (JIS standard: TP-3), B265-3 (JIS standard: TP-3), and the like. can give.

Next, a method for joining the stainless clad steel 1 and the titanium three-layer clad steel 2 will be described.
First, the base material 3a of the stainless clad steel 1 and the base material 3b of the titanium three-layer clad steel 2 are welded and joined to each other.

  Next, on the build-up weld 6, that is, on the build-up weld 6 on the side of the base material on which the stainless steel layers 4 a and 4 b are formed, build-up welding is performed using a stainless steel, and the stainless steel clad It joins to the stainless steel material layers 4a and 4b of both steel and titanium three-layer clad steel, and covers the build-up welding part 6 of base materials. Thereby, exposure of the base materials 3a and 3b and the build-up welded portion 6 of the base material is prevented, and when used as a reactor or the like, it is possible to prevent direct contact with the contents to cause corrosion or the like.

  As the material of the stainless steel constituting the build-up weld 7, the same material as the material constituting the stainless steel layer 4 a of the stainless clad steel 1 or the stainless steel layer 4 b of the titanium three-layer clad steel 2 is used. However, it is more preferable to use a stainless material having excellent corrosion resistance.

Moreover, as shown in FIG.1 (c), the stainless steel which the outer periphery of the titanium three-layer clad steel 2 exposed from the outer surface of the stainless steel layer 4a of the stainless clad steel 1 so that the said build-up welding part 7 may be covered. A plate-like body 8 made of stainless steel may be placed on the outer surface of the material layer 4b and joined. As this joining method, as shown in FIG.1 (c), the method of joining by welding the side surface of the plate-shaped object 8 and providing the welding part 9 etc. are mention | raise | lifted.
By providing the plate-like body 8 made of stainless steel, the build-up welded portion 7 made of stainless steel can be protected.

  Furthermore, as shown in FIG. 1 (d), the boundary between the titanium material layer 5 and the stainless steel material layer 4b of the titanium three-layer clad steel 2 may be subjected to silver braze seal welding. This part is a weld of a titanium material and a stainless material, and cannot be welded with a general material, but can be welded with silver soldering. And by providing this silver soldering welded part 10, it can suppress that the titanium material layer 5 peels according to use conditions.

  Next, the joining method of titanium clad steel is demonstrated using Fig.2 (a)-(b). 2 (a) to 2 (b) show the joining of the titanium three-layer clad steel 2 and the titanium two-layer clad steel 2c, but at least the base material 3b (or 3c) is used as a core material. And if it has the titanium material layer 5 in the outermost layer, it does not need to have a stainless steel layer or another metal layer between them. Hereinafter, the case of FIGS. 2A to 2B will be described.

  As the material of the base material 3c and the titanium material layer 5 constituting the titanium double-layer clad steel 2c, the same material as the base material 3b and the titanium material layer 5 described above can be used.

Next, a method for joining the titanium three-layer clad steel 2 and the titanium two-layer clad steel 2c will be described.
First, the base materials (3b and 3c) constituting the titanium three-layer clad steel 2 and the titanium double-layer clad steel 2c are welded and joined together.

  Next, on the build-up weld 6c between the base materials, that is, on the build-up weld 6c between the base materials on the side where the stainless steel layer 4b is present, build-up welding is performed using a stainless steel material, This build-up weld 7c is joined to the stainless steel layer 4b, and the build-up weld 6c between the base materials is covered. Thereby, the base materials 3b and 3c and the build-up weld 6c of the base material are further reinforced.

  And from the outer surface of the titanium material layer 5 of the titanium three-layer clad steel 2, the titanium material layer 5 of the other titanium double-layer clad steel 2 c is covered so as to cover the build-up weld portion 7 c made of the stainless material. A plate-like body 11 made of titanium material is joined to the outer surfaces by welding the side surfaces of the plate-like body 11 to provide a welded portion 12. By providing the plate-like body 11 made of titanium material, it is possible to protect the build-up weld portion 7c made of the stainless material and the build-up weld portion 6c between the base materials.

  In this case, as shown in FIG. 2B, a space portion 13 is generated between the two titanium material layers 5 and the plate-like body 11. The space 13 can be filled with titanium or copper.

  Moreover, the joined bodies having the cross sections shown in FIGS. 1B to 1D may be joined together. In this case, when the titanium material layers 5 having both cross sections are joined together by the same method as described above, an opening is generated. That is, for example, as shown in FIGS. 3A to 3B, when joining two joined bodies of the stainless clad steel 1 and the titanium three-layer clad steel 2 joined in FIG. 1B, First, the base metals 3a and 3a, 3b and 3b, and the build-up welds 6 and 6 are welded in the same manner as described above to form the build-up weld 15. Then, the stainless steel layers 4a and 4a, 4b and 4b, and the build-up welds 7 and 7 thereon are welded with a stainless steel in the same manner as described above to form the build-up weld 16. Next, the titanium materials 5 and 5 are joined in the same manner as described above using the plate-like body 14 made of the titanium material. In this case, an opening 17 is generated as shown in FIG.

  The opening 17 can be closed by covering the opening 17 with a plate made of titanium material. The titanium plate member can be joined to the titanium material layer using the same material as that used in the welded portion 12, and the counterpart material is a stainless steel material. The layer can be sealed with silver braze seal welding, Teflon material or the like.

  In addition, as an example of the stainless steel material and titanium material which comprise the plate-shaped body 8 made from said stainless steel, and the plate-shaped bodies 11 and 14 made from titanium material, it is the same as that of the example of the above-mentioned stainless steel material or titanium material. Can give.

  When the joining method of the present invention is adopted, even when a titanium clad material is used, a plurality of clad materials can be welded, and a plurality of clad materials can be used on the inner surface of a reaction vessel or the like.

Hereinafter, the present invention will be described in more detail with reference to examples.
(Example 1)
The following titanium three-layer clad steel and stainless clad steel were arranged as shown in FIG.
Titanium three-layer clad steel: carbon steel (A516-60), stainless steel (A240-304L, Ni: 9.00 to 13.00 wt%, Cr: 18.00 to 20.00 wt%, C: 0.00 08% by weight or less, Si: 1.00% by weight or less, Mn: 2.00% by weight or less), and titanium steel (B265-1) laminated and rolled in this order.
Stainless steel clad steel: Carbon steel (same as above) and stainless steel (same as above) stacked and rolled.

Subsequently, the carbon steel parts of both were weld-welded using a carbon steel welding rod. Then, overlay welding was performed using a stainless steel welding rod of the same material as the stainless steel so as to connect the stainless material layer portions of both.
And the plate-shaped body which consists of stainless steel (A240-304L) was distribute | arranged so that it might span over both stainless steel material layers, and it welded and joined as shown in FIG.1 (c).

(Example 2)
The titanium three-layer clad steel and the titanium double-layer clad steel shown below were arranged as shown in FIG.
-Titanium double-layer clad steel: Carbon steel (same as above) and titanium steel (same as above) stacked and rolled.

Subsequently, the carbon steel parts of both were weld-welded using a carbon steel welding rod. Then, build-up welding was performed using a stainless steel welding rod made of the same material as the stainless steel so as to cover the carbon steel build-up weld.
And the plate-shaped body which consists of titanium steel (B256-1) was distribute | arranged so that it might span over both titanium material layers on it, and it welded and joined as shown in FIG.2 (b).

[result]
An acetic acid aqueous solution was put as a content in a vessel produced by joining the titanium clad steel thus obtained and stainless clad steel or titanium clad steel, and when left at 60 ° C. for one month, leakage or corrosion occurred. There was no problem.

(A)-(d) Sectional drawing which shows the example of the joining method of titanium clad steel and stainless clad steel (A)-(b) Sectional drawing which shows the example of the joining method of titanium clad steel (A) The perspective view of FIG.2 (b), The perspective view which shows the state which obstruct | occluded the opening part of (b) (a).

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Stainless steel clad steel 2 Titanium triple layer clad steel 2c Titanium double layer clad steel 3a, 3b, 3c Base material 4a, 4b Stainless steel material layer 5 Titanium material layer 6, 6c Overlay welding part 7, 7c Overlay welding part 8 Plate shape Body 9 Welding part 10 Silver brazing welded part 11 Plate-like body 12 Welding part 13 Space part 14 Plate-like body 15 Overlay welding part 16 Overlay welding part 17 Opening part

Claims (4)

Stainless steel clad steel provided with a stainless steel material layer on the surface of the base material, and a base material, a stainless steel material layer, and a titanium material layer are laminated in this order, and the outer surface of the outer peripheral edge is titanium with the stainless steel material layer exposed. When joining three-layer clad steel,
Overlay welding the base materials of the above stainless clad steel and titanium three-layer clad steel,
By overlay welding using a stainless steel material on this build-up weld, this weld is joined to both the stainless steel layers of the stainless clad steel and the titanium three-layer clad steel, and between the base materials A method of joining stainless clad steel and titanium clad steel covering the weld overlay.   A stainless steel plate-like body is applied from the outer surface of the stainless steel layer of the stainless clad steel to the outer surface of the stainless steel layer of the titanium three-layer clad steel so as to cover the weld overlay made of stainless steel. The joining method of the stainless clad steel and titanium clad steel of Claim 1 to join.   The joining method of the stainless clad steel and titanium clad steel according to claim 1 or 2, wherein a boundary portion between the titanium material layer and the stainless steel layer of the titanium three-layer clad steel is subjected to silver braze seal welding. A base material, a stainless material layer, and a titanium material layer are laminated in this order. The outer surface of the outer peripheral edge portion is a titanium three-layer clad steel with the stainless material layer exposed, and a titanium material layer is provided on the surface of the base material. When joining titanium double-layer clad steel,
The base materials constituting the titanium three-layer clad steel and the titanium double-layer clad steel are welded and joined together,
The welded portion is joined to the stainless steel layer of the titanium three-layer clad steel by overlay welding using a stainless steel on the welded portion between the base materials, and the overlay between the base materials is added. Covering the weld,
Made of titanium material on the surface from the outer surface of the titanium material layer of the titanium triple-layer clad steel to the outer surface of the titanium material layer of the titanium bi-layer clad steel so as to cover the weld overlay made of stainless steel Joining method of titanium clad steels for joining plate-like bodies.

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