JP2867783B2 - Copper alloy mold for casting Al or Al alloy - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a copper alloy mold for casting Al or an Al alloy.

[0002]

2. Description of the Related Art Generally, an iron-based alloy material is used as a mold material used for a casting mold of Al or an Al alloy. However, the cooling rate of the iron-based alloy material mold is low due to the low thermal conductivity of the iron-based alloy.
It is necessary to increase the casting time per cycle, which makes it impossible to increase the casting speed of Al or Al alloy per unit time. Did not. Furthermore, Al or an Al alloy casting cast using an iron-based alloy material mold has a problem that crystal grains are not refined, and the strength and ductility of the Al alloy casting cannot be sufficiently ensured.

Therefore, it is conceivable to use a water-cooled or air-cooled copper alloy mold as the mold for casting Al or Al alloy.
When l or Al alloy is cast into a copper alloy mold, Al and the copper alloy react with each other to form a Cu-Al alloy layer on the inner surface of the mold and adhere to the mold. was there.

[0004] As a countermeasure, for example, a copper alloy mold sprayed with ceramic on the surface of the copper alloy mold (Summary of the 80th Spring Meeting of the Japan Institute of Light Metals, pp. 195-19)
6), a copper alloy mold sprayed with WC on the surface of the copper alloy mold, a copper alloy mold hard-plated on the surface of the copper alloy mold, and Ni-5% on the surface of the copper alloy mold. Copper alloy mold plated with Fe alloy, Co-20% on the surface of copper alloy mold
A copper alloy mold plated with Ni alloy has been proposed.

[0005]

However, the ceramic and WC sprayed layers are easy to peel off, and hard Cr plating, Ni-5% Fe alloy plating and Co-20% N
The i-alloy plating and the like have a problem in reactivity with the molten aluminum, and are not sufficiently satisfactory.

[0006]

Means for Solving the Problems Accordingly, the present inventors have
Without sacrificing the excellent cooling ability of Cu alloy,
As a result of research to obtain a copper alloy mold for casting Al or Al alloy which does not react with the molten aluminum and has a longer service life, as a result of applying Fe plating on the copper or copper alloy mold surface, When the Al or Al alloy is cast using the copper or copper alloy mold with the Fe plating, the speed of casting the Al or Al alloy per unit time can be increased. The structure of the obtained Al or Al alloy casting is also refined, and the strength and ductility are 10 to 2 compared with the case of casting with an iron-based alloy material mold.
It has been found that the mold life is further improved by applying Ni or Ni alloy plating as an intermediate layer between the copper or copper alloy mold and the Fe plating, by about 0%. It is.

The present invention has been made based on such findings, and (1) Al or Al alloy casting in which a copper or copper alloy mold surface is plated with Fe having a thickness of 0.005 mm to 3 mm. (2) A copper alloy mold in which a copper or copper alloy mold surface is subjected to Ni or Ni alloy plating, and further subjected to Fe plating on the copper or copper alloy mold surface to form a two-layer plating, A copper alloy mold for casting Al or an Al alloy having a total plating thickness of the two-layer plating in a range of 0.005 mm to 3 mm.

Next, the reason why the plating in the present invention is limited as described above will be described. (A) Fe plating Fe plating has extremely low reactivity with molten aluminum and improves the life of a copper or copper alloy mold.
If it is less than 005 mm, it will be worn and peeled off in a short time due to the flow of the molten aluminum, while if its thickness exceeds 3 mm, the cooling capacity will be reduced and the characteristics of the cast Al casting will be lower than that of the iron mold. Will not improve. Therefore, the thickness of the Fe plating is set to 0.005 mm to 3 mm.

(B) Two-layer plating When Ni or Ni alloy plating is applied between the copper or copper alloy mold surface and the Fe plating, the adhesion of the Fe plating layer is improved and the life of the mold is improved. If the total thickness of the two-layer plating is 0.005 mm or less, it is easy to wear and peel off.
It is not preferable because the characteristics of the casting are not improved as compared with the iron-based alloy material mold. Therefore, the total thickness of the two-layer plating is set to 0.005 mm to 3 mm.

[0010]

Next, the present invention will be specifically described based on embodiments. Pure Cu or Cu-0.6% Cr-0.
Using a heat-resistant Cu alloy having a composition of 1% Zr, the diameter:
It has a cavity consisting of a large space of 50 mm, depth: 50 mm and a small space below the large space with a diameter of 20 mm and a depth of 50 mm, and the external dimensions are 150 m in height.
m, a width: 100 mm, and a thickness: 100 mm. A split mold having a thickness of 100 mm was formed by machining, and then the inner surfaces of these mold cavities were subjected to Fe plating or base plating and Fe plating as shown in Tables 1 and 2. Forming a surface treatment layer composed of two-layer plating to produce molds 1 to 9 of the present invention and comparative molds 1 to 3 (in Table 2, values marked with * indicate values outside the range of the present invention). did.

For comparison, the Cu-0.6% C
As shown in Table 2, ceramic spraying, WC spraying, and hard C were performed on the inner surface of a heat-resistant Cu alloy mold having a composition of r-0.1% Zr.
r plating, Ni-5% Fe alloy plating, Co-20% N
Conventional molds 1 to 5 with surface treatment layer such as i-alloy plating
Was prepared, and separately, a conventional die 6 of an Fe alloy die having the same shape as the copper alloy die was prepared.

[0012]

[Table 1]

[0013]

[Table 2]

Using the molds shown in Tables 1 and 2, a casting test was performed under the following conditions: casting material: Al alloy (AC4C); casting temperature: 700 ° C .; The state of the subsequent reaction with the molten Al alloy on the inner surface of the mold and the state of peeling of the surface treatment layer were examined. Regarding peeling of the surface treatment layer, the presence or absence of peeling was visually observed, and the number of castings at which peeling occurred was evaluated. When peeling occurred, the subsequent casting test was not performed.

Regarding the reaction with the molten Al alloy, when the peeling occurs, or when the peeling does not occur, the adhesion state of the Al alloy to the mold at the time of casting 300 times is visually inspected, and almost no adhesion occurs. Those that did not exist were marked with a circle, those that slightly adhered were marked with a triangle, and those that had a large amount of adhesion were marked with a cross. Further, a tensile test was performed on the casting (aluminum alloy casting) cast using the mold, and tensile strength and elongation were measured. The results are shown in Tables 3 and 4.

[0016]

[Table 3]

[0017]

[Table 4]

[0018]

According to the results shown in Tables 1 to 4, the Al alloy castings cast using the molds 1 to 9 of the present invention are the same as those of the conventional mold 1 (ceramic sprayed mold) and the conventional mold 2 (WC It is superior in strength and elongation as compared with an Al alloy casting cast using a thermal spray mold) and a conventional mold 6 (conventional Fe alloy mold). (Hard Cr
Compared with conventional mold 4 (Ni-5% Fe alloy single-layer plating mold) and conventional mold 5 (Cr-20% Ni alloy single-layer plating mold), reactivity with molten Al alloy Is low.

As described above, according to the Al alloy casting mold of the present invention, an Al alloy casting having mechanical properties superior to the conventional Fe mold can be obtained.
The occurrence of peeling or Al
With less reactivity, the durability is excellent, and the cooling rate is high, so that one casting time can be shortened and the productivity is improved, and the production cost of the Al alloy casting can be reduced. Can greatly contribute to the development of

──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Masao Kobayashi 1-297 Kitabukurocho, Omiya City, Saitama Prefecture Mitsubishi Materials Corporation Central Research Laboratory (72) Inventor Takuo Iwamura 1-297 Kitabukurocho, Omiya City, Saitama Mitsubishi Materials Real Central Research Laboratory Co., Ltd. (72) Inventor Hiroaki Nakayama 1230 Kamideya, Okegawa-shi, Saitama Mitsubishi Materials Corporation Okegawa Daiichi Mfg. Co., Ltd. (58) Fields investigated (Int. Cl. ⁶ , DB name) B22C 9/06 B22D 17/22 B22D 21/04

Claims (2)

(57) [Claims] Claims 1. A copper or copper alloy mold surface having a thickness:
A copper alloy mold for casting Al or an Al alloy, which is plated with Fe of 0.005 mm to 3 mm. 2. A copper alloy mold in which Ni or Ni alloy plating is applied on a surface of a copper or copper alloy mold, and further, Fe plating is applied thereon to provide a two-layer plating. Characterized in that the total thickness is in the range of 0.005 mm to 3 mm.