JP2879930B2 - Free-cutting stainless steel for molds with excellent rust resistance - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Application Field] The present invention is characterized by having extremely excellent machinability, and also having excellent rust resistance, and is mainly used for a plastic molding die holder or The present invention relates to a free-cutting stainless steel for molds used for dies such as plastic molding.

[Conventional technology]

A large nesting hole is formed in the steel for the holder, which forms the outer frame of the plastic molding die, to tighten the body of the nested plastic mold. Excellent machinability is required. In addition, the holder is provided with a water cooling hole for shortening the molding cycle of plastic, and when rust is generated in this hole, the cooling effect is reduced, so that it is required to have excellent rust resistance and the like. .

Conventionally, SCM440 has been used for steel for plastic mold holders.
C-Mn-Cr-Mo-Fe-based steels have been used among low alloys, but in recent years, as mold processing companies have strongly demanded shortening of production delivery time and reduction of processing costs, etc. It has become. In order to reduce the number of machining steps in response to this demand, for example, as proposed in Japanese Patent Publication No. 52-1372, low alloys containing S as an element imparting free cutting properties have a low C-
Mn-Cr-Mo-S-Fe type steel and the like are generally used.

[Problems to be solved by the invention]

However, the low-alloy low-C-Mn-Cr-S-Fe-based plastic molding die holder steel described above is a low-Cr system and has a large amount of sulfide precipitation, so that rust easily occurs in water-cooled holes, There is a problem that the cooling effect is reduced.

In addition, as a tool steel with excellent machinability, Japanese Patent Publication No. 63-6638
No. 4, JP-B-63-66385 and JP-B-63-66386 are disclosed, but they are not sufficient in terms of rust resistance and are not sufficient as plastic mold holders and mold steel. Met. The reason is that the steel disclosed in these known examples is a steel having a relatively low Cr content, or a steel having a large C content when the Cr content is large, in which case the carbide is excessively large. This is because it is disadvantageous to rust resistance because it increases or increases.

The present invention provides low to medium C-Mn-Ni-high Cr-Al-Cu-Fe martensitic stainless steels, in order to impart excellent machinability, to which a small amount of S is added. And the ductility of the matrix is appropriately reduced by precipitation of the Ni-Al intermetallic compound and the Fe-Cu solid solution. Accordingly, the steel of the present invention has both excellent machinability and rust resistance, which are the required characteristics of steel for plastic mold holders, and rust resistance having strength sufficient to be satisfied as a mold holder material. It is an object of the present invention to provide a free-cutting stainless steel for molds having excellent resistance.

[Means for solving the problem]

The steel of the present invention contains 14.00 to 17.00% of Cr, which is considerably higher than conventional steels for plastic molding, as a means to combine rust resistance and excellent machinability with respect to the C content. The Cr content ratio Cr / C should be 35 or more, and S should be
0.02 to 0.15% and Al and Cu are added. Further, deterioration of machinability is prevented by not adding Mo which is usually added. When S is added as a free-cutting element, rust resistance is degraded due to the presence of sulfide. In the present invention, this defect is compensated for by increasing Cr and the balance of Cr and C, and is improved. It is. Further, by appropriately adding Cu and Co, the corrosion resistance is further improved.

That is, in the first invention of the present invention, C 0.
20 ~ 0.50%, Si 2.00% or less, Mn 3.00% or less, S 0.02 ~
0.15%, Ni 4.00% or less, Cr 14.00 to 17.00%, and the ratio of Cr amount to C amount is Cr / C ≧ 35, and Al 0.50
2.00% or Al 0.50 ~ 2.00%, Cu 0.50 ~ 4.00
%, And the balance consists of Fe and unavoidable impurities, and is a free-cutting stainless steel mold steel excellent in rust resistance. 0.20-0.
50%, Si 2.00% or less, Mn 3.00% or less, S 0.02 to 0.15
%, Ni 4.00% or less, Cr 14.00 to 17.00%, and the ratio of Cr amount to C amount is Cr / C ≧ 35, and Al 0.50 to 2.0
Contains 0% of one kind or Al 0.50-2.00%, Cu 0.50-4.00%, Ca 0.01% or less, Ce 0.10% or less, Se 0.1
0% or less, Zr 0.10% or less, including one or more of them (in the case of two or more, the total is 0.10% or less), the balance
A free-cutting stainless steel for molds with excellent rust resistance characterized by Fe and unavoidable impurities. In the third invention, C is 0.20 to 0.50%, Si is 2.00% or less, Mn is 3.00% or less, S is 0.02 to 0.15%, Ni is 4.00% or less in weight%.
Cr 14.00-17.00%, and the ratio of Cr amount to C amount is Cr /
C ≧ 35, and one or Al of 0.50 to 2.00% of Al
0.50 ~ 2.00%, Cu 0.50 ~ 4.00% containing two kinds, Co 3.
A free-cutting stainless steel for molds with excellent rust resistance, characterized by being not more than 00%, the balance being Fe and unavoidable impurities. The fourth invention is C 0.20 to 0.50% by weight. , Si
2.00% or less, Mn 3.00% or less, S 0.02-0.15%, Ni 4.0
0% or less, Cr 14.00 to 17.00%, and the ratio of the Cr amount to the C amount is Cr / C ≧ 35, and one of Al 0.50 to 2.00% or Al 0.50 to 2.00% and Cu 0.50 to 4.00% Contains seeds, Co 3.00% or less, Ca 0.01% or less, Ce 0.10%
In the following, any one or more of Se 0.10% or less and Zr 0.10% or less is contained (in the case of two or more, 0.10% in total
This is a free-cutting stainless steel for molds with excellent rust resistance, characterized by the following: Fe and the inevitable impurities.

 Hereinafter, the present invention will be described in more detail.

The steel of the present invention has low to medium C-Mn-S-Ni-high Cr-Al-Cu-
A steel mainly composed of an Fe alloy, which forms a uniform martensitic structure by air cooling after quenching heating or hot working, and HRC by high temperature tempering at 600 ° C or higher.
Hardness of about 30 can be maintained, and a large amount of Cr forms a solid solution in the matrix to form an oxide film, and has excellent rust resistance. Furthermore, when Co and Cu are contained singly or in combination, the effect of rust resistance is further improved. In addition, by dispersing a small amount of MnS in the matrix, and by precipitating a Ni-Al intermetallic compound and a Fe-Cu solid solution, the ductility of the matrix is appropriately reduced and excellent machinability is obtained. Further, when at least one of Ca, Ce, Se, and Zr is contained, MnS is further refined and uniformly dispersed, so that the machinability is further improved.

The steel of the present invention is supplied in a pre-hardened state having a hardness of about HRC30, and is used after being subjected to die-sinking and then polished.

Therefore, it does not require heat treatment after engraving, has good machinability, and shows excellent rust resistance.
It is a new free-cutting stainless steel for molds with excellent rust resistance, which has made it possible to prevent a decrease in the cooling effect during plastic molding.

[Action]

 Next, the reasons for limiting the components of the steel of the present invention will be described.

C is a basic additive element necessary for maintaining a hardness of about 30 HRC by tempering at 600 ° C. or higher. If it is too large, it will form huge residual carbides and reduce machinability, so 0.
If it is too low, the effect of the above addition cannot be obtained, so it is made 0.20% or more.

Si is an element added as a deoxidizing agent at the time of producing a steel ingot, and if it is too much, the mechanical properties are reduced.

Mn is an important element added to enhance the hardenability of the steel of the present invention, to suppress the formation of ferrite, and to provide appropriate quenching and tempering hardness. If the content is too large, the viscosity of the base is increased and the machinability is reduced.

Ni combines with Al to form an NI-Al intermetallic compound and precipitates in the matrix, thereby appropriately reducing the ductility of the matrix and improving the machinability. Further, it is added to enhance the hardenability of the steel of the present invention and to suppress the formation of ferrite. If the content is too large, the viscosity of the base is increased and the machinability is reduced.

Cr is a very important element that enhances the rust resistance of the steel of the present invention. In the tempering treatment, Cr-based carbides are formed and added to form the strength of the steel of the present invention. If it is too large, the machinability will deteriorate.
If the amount is too low, the effect of the above addition cannot be obtained, so the content is made 14.00% or more.

In the present invention, the balance between C and Cr is required,
The ratio of the Cr amount to the amount Cr / C is 35 or more. The reason for this is
Cr in the matrix forms an oxide film, suppresses the progress of rust, and imparts good rust resistance. However, Cr is a carbide forming element, and when the amount of C increases, Cr and C A carbide is formed in between, and the amount of Cr in the matrix becomes poor. Therefore, in the balance between Cr and C, if Cr / C is less than 35, good rust resistance cannot be obtained, so Cr / C is made 35 or more.

When Cr / C is less than 35, for example, even when Cr is in the range of 14.00 to 17.00%, C exceeds 0.50%. For example, when C is about 0.60 to 0.80%, the amount of Cr in the matrix becomes poor, and the particle size becomes 20%.
It is considered that a coarse residual carbide having a thickness of about 30 μm is formed, the passivation film in the surrounding area is easily broken, and rust develops. Therefore, when the C is about 0.60 to 0.80%, rust is easily generated as compared with the steel of the present invention.

Al forms a Ni-Al intermetallic compound together with Ni and precipitates in the matrix, thereby appropriately reducing the ductility of the matrix and imparting excellent machinability to the steel of the present invention. If the content is too large, ferrite is generated, so the content is set to 2.00% or less. If the content is too small, the effect of the above addition cannot be obtained, so the content is set to 0.50% or more.

Cu precipitates in the matrix as a Fe-Cu solid solution, moderately reduces the ductility of the matrix, imparts excellent machinability to the steel of the present invention, and imparts excellent rust resistance to the steel of the present invention. To be added. If the amount is too large, the hot workability is reduced, and the machinability is also reduced. Therefore, if the amount is too small, the effect of the addition cannot be obtained, so the amount is made 0.50% or more.

Co is added to impart excellent rust resistance to the steel of the present invention. If the content is too large, the machinability is reduced.

S is added to form MnS together with Mn and disperse in the matrix to impart excellent machinability to the steel of the present invention. If it is too large, huge MnS is formed, which leads to deterioration of the machinability and the rust resistance is also lowered. Therefore, if it is too small, the effect of the above addition cannot be obtained.
% Or more.

Ca, Ce, Se, and Zr are all added to uniformly and finely disperse MnS and to impart excellent machinability. If it is too large, the hot workability is reduced, and the machinability is also reduced. Therefore, Ca 0.01% or less, Ce 0.10% or less, Se
0.10% or less, Zr 0.10% or less, and in the case of any two or more, the total is 0.10% or less.

〔Example〕

 Hereinafter, the steel of the present invention will be described based on examples.

Table 1 shows the chemical compositions of the steel of the present invention, the conventional steel, and the comparative steel used in the examples. Conventional steel M is the same as
Steel equivalent to 1372. Conventional steel N is SCM440.
The comparative steels O and P have the same Cr content as the steel of the present invention, but C
Since the amount is large, the value of Cr / C is low.

Table 2 shows the steels of the present invention, conventional steels and comparative steels, HRC30
After quenching and tempering with the target of, the result of the machinability test with an end mill is shown as a machinability index with the end mill life of conventional steel N as 100, and a mirror-finished 15 mm × 20 mm surface Was subjected to a rust resistance test in which a 5% aqueous solution of NaCl at 30 ° C. was sprayed for 3 hours. .

According to Table 2, it is understood that the machinability of the steel of the present invention is good, and the rust resistance is much better than the conventional steels M and N. The rusting resistance of the comparative steels O and P is slightly better than that of the conventional steel, but much lower than that of the steel of the present invention. This is the ratio of Cr content to C content shown in Table 1.
This is related to a high Cr / C value, and the higher this value is, the more the Cr amount in the matrix is, that is, the better the corrosion resistance is.

〔The invention's effect〕

The present invention provides a fine-grained
Dispersion of MnS uniformly and precipitation of Ni-Al intermetallic compound and Fe-Cu solid solution make it possible to further reduce the ductility of the matrix.Adjustment to about 30 HRC by heat treatment provides excellent machinability And rust resistance, and have the necessary strength as steel for a holder for plastic molds or steel for molds. Therefore, the number of processing steps is greatly reduced during the production of the mold, and when the mold is water-cooled at the time of plastic molding, the cooling effect is prevented from being reduced, and the molding cycle can be greatly accelerated, so that the industrial value is extremely high.

Claims (4)

(57) [Claims] (1) In weight%, C 0.20 to 0.50%, Si 2.00% or less, Mn 3.00% or less, S 0.02 to 0.15%, Ni 4.00% or less,
Cr 14.00-17.00%, and the ratio of Cr amount to C amount is Cr /
C ≧ 35, and one or Al of 0.50 to 2.00% of Al
Contains 0.50 to 2.00%, Cu 0.50 to 4.00%, with the balance being F
Free-cutting stainless steel for molds with excellent rust resistance, characterized by comprising e and unavoidable impurities. (2) In weight%, C 0.20 to 0.50%, Si 2.00% or less, Mn 3.00% or less, S 0.02 to 0.15%, Ni 4.00% or less,
Cr 14.00-17.00%, and the ratio of Cr amount to C amount is Cr /
C ≧ 35, and one or Al of 0.50 to 2.00% of Al
Contains 0.50 to 2.00% and 0.50 to 4.00% Cu.
01% or less, Ce 0.10% or less, Se 0.10% or less, Zr 0.10%
Excellent free-cutting properties with excellent rust resistance, characterized by containing one or more of the following (in the case of two or more, the total is 0.10% or less), with the balance being Fe and unavoidable impurities Stainless steel for molds. (3) In weight%, C 0.20 to 0.50%, Si 2.00% or less, Mn 3.00% or less, S 0.02 to 0.15%, Ni 4.00% or less,
Cr 14.00-17.00%, and the ratio of Cr amount to C amount is Cr /
C ≧ 35, and one or Al of 0.50 to 2.00% of Al
0.50 ~ 2.00%, Cu 0.50 ~ 4.00% containing two kinds, Co 3.
A free-cutting stainless steel for molds with excellent rust resistance, characterized in that the content is at most 00% and the balance is Fe and unavoidable impurities. (4) In weight%, C 0.20 to 0.50%, Si 2.00% or less, Mn 3.00% or less, S 0.02 to 0.15%, Ni 4.00% or less,
Cr 14.00-17.00%, and the ratio of Cr amount to C amount is Cr /
C ≧ 35, and one or Al of 0.50 to 2.00% of Al
0.50 ~ 2.00%, Cu 0.50 ~ 4.00% containing two kinds, Co 3.
00% or less, Ca 0.01% or less, Ce 0.10% or less, Se
0.10% or less, Zr 0.10% or less, including one or more of them (in the case of two or more, 0.10% or less in total)
Free-cutting stainless steel for molds with excellent rust resistance characterized by the balance of Fe and unavoidable impurities.