JPH1030164A - Treatment for nitriding die for aluminum extrusion and die for aluminum extrusion - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a die for aluminum extrusion free from reduction in substrate hardness even if nitriding treatment is repeatedly executed. SOLUTION: The hardness of a hot tool steel as a die substrate is regulated to 50 to 53HRC, and this hot tool steel is subjected to nitriding treatment. As the nitriding treatment, gas nitriding of executing heating at 480 to 550 deg.C for 5 to 10hr in an NH3 -N2 atmosphere is exemplified. The NH3 -N2 atmosphere may be added with a gas having a carbon source. As for the die subjected to the nitriding treatment, the hot tool steel is used as the substrate, the hardness of the substrate after the nitriding treatment is regulated to 50 to 53HRC, the Vickers hardness of a surface nitriding layer is regulated to 1050 to 1150HV, the thickness of the surface nitriding layer is regulated to 0.025 to 0.15mm, and the thickness of a white layer is regulated to 4 to 8μm.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a nitriding method for producing a die for extruding aluminum having a surface layer which suppresses softening of a base material and has good wear resistance.

[0002]

2. Description of the Related Art In hot extrusion of aluminum, a high-temperature aluminum material is metal-flowed without lubrication, and is passed through a bearing of a die to produce an extruded shape having a predetermined shape. As the die material, hot tool steel such as SKD61 containing alloy elements such as Cr and Mo is used. In addition, a hard surface layer is formed on the bearing surface exposed to a severe wear environment by nitriding treatment such as salt bath nitriding and gas nitriding. The hard surface layer formed by the nitriding treatment has a Vickers hardness of 1000 to 1300 and is rich in wear resistance.
High hot hardness.

[0003]

The hard surface layer easily disappears and peels off from the die surface when hot extrusion is repeated. When the hard surface layer is eliminated, hot extrusion is not performed smoothly, and the shape of the extruded profile is deteriorated. Therefore, the die in which the hard surface layer has disappeared or decreased has been used repeatedly after forming the hard surface layer by modifying the bearing surface and nitriding between the hot extrusion steps. As for one die, it is usual that nitriding treatment is repeated several times or more. However, the softening of the die steel progresses during the heating during the nitriding treatment, so that the hot strength required for the die decreases, and the plastic deflection tends to progress. For example, SKD61, SKD62 typically used as a die substrate
Steel etc. are nitrided after adjusting the quenching and tempering hardness normal H _RC 45 to 50. However, SKD61
As for manufacturing the die, of the initial hardness in the range of H _RC 48, hardness until H _RC 45 is lowered at the time of waste material.
This decrease in hardness promotes abrasion of the die and is one of the causes of shortening the life of the die. The present invention has been devised in order to solve such a problem. By adjusting the hardness of a die steel to be nitrided, it is possible to suppress a decrease in the hardness and wear of the base material and to provide a long-life heat source. It is an object to provide a die for inter-extrusion.

[0004]

The nitriding method of the present invention comprises:
To achieve that purpose, after adjusting the hot work tool steel is die substrate in hardness H _RC 50 to 53 by quenching and tempering, characterized in that nitriding treatment. The nitriding treatment is performed at 480 to 550 ° C. in an NH ₃ —N ₂ atmosphere at 5-1 ° C.
Gas nitriding with 0 hour heating is employed. A gas having a carbon source can be added to the NH ₃ —N ₂ atmosphere. The aluminum extrusion die according to the present invention is
The hardness of the substrate after nitriding is _HRC
50-53, Vickers hardness of surface nitrided layer is HV105
0 to 1150, the thickness of the surface nitrided layer is 0.025 to 0.1
5 mm, and the thickness of the white layer is 4 to 8 μm.

[0005]

According to the present invention, the initial hardness of the hot work tool steel is set to _HRC50.
To 53, which is higher than the conventional base material, and is subjected to nitriding treatment. The high initial hardness is a phenomenon discovered by the present inventors, and causes a thick nitride layer to grow, although the mechanism is not clear as compared with the conventional nitriding treatment. Therefore, abrasion due to a decrease in the hardness of the base material is suppressed. In addition, when low-temperature gas nitriding is employed as the nitriding treatment, a decrease in the hardness of the die steel during the nitriding treatment is prevented.

[0006]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hot tool steel used as a die base material has different quenching temperatures and cooling methods depending on the type of steel. For example, in SKD61, heat treatment is performed in the pattern shown in FIG. To obtain H _RC 50 to 53 of the present invention is required, but the cooling start temperature at the time of tempering in the heat pattern was five hundred and fifty to six hundred eighty ° C. in conventional, 500-5
Set as low as 50 ° C. By starting the cooling from this temperature range, fine carbides are precipitated, residual austenite is martensite, H _RC 50 to 53
High initial hardness is obtained. In this regard, in the conventional method,
Since the cooling start temperature at the time of tempering set relatively high and five hundred and fifty to six hundred and eighty ° C., the hardness is low and H _RC 45 to 50.

[0007] When nitriding treatment, particularly low-temperature gas nitriding, is applied to the hot work tool steel having an increased initial hardness as described above, the surface hardness and the depth of the nitrided layer of the hot work tool steel subjected to the nitriding treatment are improved. Is done. Specifically, as is also described in the Examples below, in comparison to H _RC 43 and 48 and is adjusted to a relatively low hardness and hot work tool steel, hot work tool that is adjusted to H _RC 53 When the steel is nitrided, as shown in FIG. 4 (c), the nitrogen diffusion layer is much thicker, and the white layer formed on the surface layer is also thick. The formation of such a thick nitrogen diffusion layer is attributed to the fact that in hot work tool steel adjusted to _HRC 53, the crystal grains of the base steel are refined and the diffusion of nitrogen is promoted by the presence of many crystal grain boundaries. It is inferred that this was the result. However, if the hardness of the tempered steel exceeds _HRC 53, the Charpy impact value is reduced, and the die is easily broken, which is not preferable.

In the gas nitriding treatment, a treatment condition of heating at a nitriding temperature of 480 to 550 ° C., preferably 500 to 520 ° C. for 5 to 10 hours in an atmosphere containing NH ₃ and N ₂ as main component gases is employed. If the nitriding temperature exceeds 550 ° C., the steel material is undesirably softened and the hardness is lowered. Conversely, when the nitriding temperature is lower than 480 ° C., the diffusion reaction of nitrogen is slow, and it takes a long time to form a predetermined nitrided layer. If necessary, a carbon source supplement such as CO _{2 having} a carbon source is added to the nitriding atmosphere. The carbon source supplement has an effect of shortening the nitriding treatment time. At the time of nitriding, it has the effect of supplying C to the surface and ensuring toughness. That is, since the diffusion coefficient in steel at a nitriding temperature of about 500 ° C. is about 1.14 times larger in C than in N, C diffuses into the steel first to form Fe ₃ C. Fe ₃ C serves as a nucleus to promote the diffusion of N. Further, the carbon source replenisher is also effective in replenishing C to the surface during the nitriding treatment and ensuring toughness.

[0009]

【Example】

Example 1: a substrate hardness of hot work tool steel SKD61 H _RC 53
(Invention Example) was adjusted to H _RC 43 (conventional example) and H _RC 48 (conventional example) was subjected to 44% NH _3, 56% N gas nitriding heating 7 hours 510 ° C. in a ₂ atmosphere . After the nitriding treatment, the hardness distribution in the depth direction was measured, and the influence of the substrate hardness was investigated. As can be seen from the survey results in FIG. 2, the higher the substrate hardness, the higher the surface hardness and the deeper the hardened layer. Next, a second nitriding treatment was performed under the same conditions as the first to examine the deterioration of the base material due to repeated nitriding. Then, the hardness distribution in the depth direction was measured.
As is clear from FIG. 3 showing the measurement results, the base material hardness was H
Compared to the conventional example was adjusted to _RC 43 and H _RC 48, H _RC
In the present invention adjusted to 53, the surface hardness was high and the hardened layer was deep. The deep hardened layer is also observed from the cross-sectional micrograph shown in FIG.

[0010] In any case, the hardness of the base material is slightly reduced by repeating nitriding twice. In each case, the hardness of the base material after nitriding twice is reduced to the initial hardness. Depends. Also in this regard, the initial value is H
_It can be seen that by setting as high as _RC 53, softening of the base material is suppressed, and an extrusion die excellent in bending resistance and settling resistance can be obtained. The aluminum alloy 6063 was extruded using each of the extrusion dies that had been subjected to the nitriding treatment. Extrusion conditions were as follows: die preheating temperature 450 ° C., extrusion speed 40 m /
Set to minutes. As a result, according to the present invention, the initial hardness is H
The higher the set die and _RC 53, is capable of a large amount of extrusion by cross-sectional thickness of the extruded shape members is the thickness exceeds the reference value, it was observed that the wear of the bearing surface is suppressed. In contrast, the initial hardness of about extrudable length in die set at H _RC 43 is dice H _RC 53 3/5, the initial hardness with die set to H _RC 48 to about 4
/ 5, and considerable wear was observed on the bearing surface.

[0011]

As described above, according to the present invention, in the present invention, when using the hot work tool steel as an extrusion die nitrided to adjust the hardness of the steel as a base material in the H _RC 50 to 53 Thereby, the surface hardness of the nitrided layer formed by the subsequent nitriding treatment is increased, and the hardness distribution of the nitrided layer can be deepened. Therefore, abrasion at the time of extrusion is reduced, and a decrease in the hardness of the base material during renitriding for repeated use is reduced. As a result, the die life is improved and the productivity is also improved.

[Brief description of the drawings]

Fig. 1 Heat pattern of quenching and tempering of hot tool steel used as a die base material

FIG. 2 Relationship between hardness distribution and substrate hardness of die steel subjected to first nitriding treatment

FIG. 3 shows the relationship between the hardness distribution of the die steel subjected to the second nitriding treatment and the substrate hardness.

FIG. 4 shows a substrate hardness of _HRC43 (a) and _HRC48 (b).
Micrograph showing the metal structure of the surface when hot-working tool steel of _HRC 53 (c) and _HRC 53 (c) are nitrided twice

Claims (5)

[Claims] 1. A After adjusting the hot work tool steel is die substrate in hardness H _RC 50 to 53 by quenching and tempering, nitriding treatment of the aluminum extrusion die, characterized in that the nitriding treatment. 2. A nitriding method according to claim 1, wherein the nitriding treatment is gas nitriding. 3. The gas nitride according to claim 2, wherein NH _{3 is used.}
A nitriding treatment method in which heating is performed at 480 to 550 ° C. for 5 to 10 hours in an N ₂ atmosphere 4. NH to which a gas having a carbon source is added
Nitriding processing method according to claim 3, wherein the use of in ₃ -N ₂ atmosphere. 5. The hot work tool steel as a base material, hardness H _RC 50 to 53 of the substrate after the nitriding treatment, Vickers hardness of the surface nitride layer is HV1050～1150, the thickness of the surface nitride layer 0.
An aluminum extrusion die having a thickness of 025 to 0.15 mm and a white layer of 4 to 8 μm.