JPS60228143A - Decorative composite material - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed Description of the Invention] "Technical Field" This invention relates to decorative composite materials, and relates to AJII or A! The outer skin material made of the T1-based alloy is clad and crimped onto the surface of the core material made of the T1-based alloy, thereby making it lightweight and excellent in workability, and the outer skin of the core material. A coating material made of N1 or N1-based alloy is clad and crimped on the surface of the material, and a surface material made of Au or A'u alloy, or PT or PT gold alloy is clad and crimped on the surface of the coating material. In particular, it is lightweight and has excellent workability.

"Prior art and its problems" T1 material, which has high strength, high corrosion resistance, and is lightweight, is combined with other metal materials to form a cladding, and has traditionally been used as a material for decorative purposes such as eyeglass frames. A material is known in which a core material made of a T1-based alloy is clad and crimped with N1, an N1-based alloy, or a Cu alloy.

However, in order to reduce weight, Ti-! It seems that the proportion of the core material made of T1-based alloy is increasing.
, it is unsuitable for processing into complex shapes. ) has the disadvantage that it results in poor workability of the material as a whole. Friend, as mentioned above, when using T-materials with an increased amount of T1, a large amount of force is required for machining in order to improve the strength by % T1, which poses the problem of increased wear and tear on the tools used for machining.

``Object of the Invention'' The present invention was made in view of the above circumstances, and it provides a composite material for decoration that has excellent plastic workability and is lightweight, and a composite material that has excellent plastic workability and light weight as well as plating properties. ``Structure of the Invention'' Aiming to provide a composite material with good brazing properties One of the aspects of this invention is to provide a composite material with T1 on the surface of a core material made of Affl or M-based alloy. The other type is a core material made of AJJ or A1 alloy, and an outer skin material made of a T1 base alloy is crimped onto the surface of the core material. The N1 plate is made by crimping a covering material made of an N1-based alloy with a cladding, and the Au plate is made by crimping a surface material made of an Au-based alloy or a Pt-based alloy onto the surface of this coating material.

"Specific structure and operation of the invention" FIG. 1 shows an embodiment of nine wire rods made from one composite material of this invention. This composite material A has T1 or T1 on the outer surface of a core material 1 made of AJJ or A1-based alloy.
It is constructed by crimping a cladding material 2 made of a base alloy. In addition, the composite ratio of the outer skin material 2 to the core material 1 is set to 12 to 60 in terms of cross-sectional area ratio. In addition, AA friend A
% JIS 1070.1050.1 for J3 alloy
100.1200.3003.5052.5056.8
083,6061.6063.7003 etc. are used.

In the composite material A having the above structure, the core material 1 has good workability &A, t3 ma9 is determined to be AJI based alloy, and the workability of the composite material A as a whole is N1 with Tt as the core material. The outer skin material is superior to conventional materials, and therefore the number of man-hours required for machining is reduced compared to conventional materials, and the wear and tear on tools is also reduced.

In addition, since Affl-J or A1 alloy is used for the core material 1, it is lighter and the amount of Ti is relatively reduced, so the processing anisotropy of T1 is lower than that of composite material A.
It does not appear as an overall anisotropy, and is suitable for products that require roundness, complex shapes, and dense dimensions (for example, eyeglass frames and watch bands). In addition, A
u3 Next, the core material 1 made of A-0 base alloy is lacking in terms of strength and corrosion resistance, but the outer skin material 2 has high strength.
Composite material A made of 1 or T1-based alloy has sufficient strength and corrosion resistance for decorative purposes. Furthermore, in the above composite material A, if the cross-sectional area ratio of the core material 1 to the outer skin material 2 is too large, processing as a clad material will be difficult due to the difference in strength ratio between the core material 1 and the outer skin material 2. Also, if it is too small, it will be difficult to process, so as shown above 12
~60'l.

FIG. 2 shows an embodiment of another composite material of the present invention made into a wire rod. This composite material B is made by crimping the outer skin material 12 made of a T1-based alloy onto the outer surface of a core material 11 made of an A4 or A-based alloy, and then attaching the outer skin material 12 made of a T1-based alloy to the surface of the outer skin material 2 containing an N1-based alloy or an N1-based alloy. A covered material 13 made of
Au or All-based alloy on the surface, some l is PT
Alternatively, in a trap constructed by cladding and crimping a surface material 14 made of a Pt-based alloy, the composite ratio of the outer skin material 12 to the core material 11 is set to 12 to 60% in terms of cross-sectional area ratio. In addition,
Affl Maku is a JIS1070 A-6 base alloy.
．． 1050.1100, 1200.3003.5052
．． 5056.8083.6061.6063.7003
etc.

Similar to the composite material A, the composite material B having the above structure has good workability and sufficient strength and corrosion resistance for decorative purposes. In addition, in the above-mentioned composite material B, on the outside of the outer skin material 12, a covering material 13 made of an N1-based alloy, and a covering material 13 made of an N1-based alloy, and a covering material 13 made of an N1-based alloy, and a covering material 13 made of an N1-based alloy, and an Au or Au-based alloy or a PT.
Since the surface material 14 is formed of a PT-based alloy, it has excellent plating and brazing properties. The presence of the surface material 14 (1-) makes it easier to form various pattern numbers as decorative materials.

Since the covering material 13 of N1 or N1 base alloy with medium hardness is interposed between the surface material 14, the covering material 13 of N1-f or N1 base metal is used as a cushioning material during processing. This improves the overall workability and reduces Ks during machining.
This never occurs. In addition, T1 during heat treatment
Intermetallic compound force between
When exposed on the surface of the surface material 14 made of aluminum or Au-based alloy, its shape does not stand out on the surface material 14, and the beautiful appearance of the surface material 14 is not impaired. Furthermore, the temperature at which the intermetallic compound between Ti and N1 forms is T
Since the interaction between i and Cu, Ag, Zm, etc. in the Au-based alloy is also high, the treatment temperature during heat treatment such as annealing can be selected from a wide range, and subsequent processes such as annealing are easy to perform. .

The thickness of the coating material 13 made of N1 based alloy is preferably 0.1 to 2 times the thickness of the surface material 14 made of Au based alloy. If it is less than 0.1 times, it is too thin and the effect of interposing the covering material 13 cannot be obtained, and if it exceeds twice the thickness, the apparent specific gravity of the entire composite material B increases, resulting in T1 or T1 fund. "Experimental Example" Test specimens 1 to 17 were manufactured using composite materials (wire rods) with composite ratios set to various values as shown in Table 1. We conducted work hardening tests and press compression tests using some of these. To manufacture each test piece, first, the outer diameter is 4oφ, the inner diameter is the value according to the composite ratio, and the components are shown in Table 1. The ingredients are shown in Table 1). Next, the core material is placed in the outer skin material and the tip is brazed, then wire is drawn at a processing rate of 75%, and intermediate annealing is performed at 500°C for 30 minutes. wire rod. This wire was finish annealed (480'OXa minutes) and used as a specimen. In addition, as a comparison test piece, the core material was N1 and a rigorous one (&1
7) was also produced.

In addition, in Table 1, the cladding in the product category is 50A.
u-35Cu-10Zn-5Ni 12K alloy and 99
．． 8 A composite of Ni with a cross-sectional area ratio of 1:1 is T1
It is clad in a ratio of 1:1 to the outer skin material made of aluminum.

In addition, the outer skin of each of the test specimens t-th, Rin 1, Mu 7, and Ku 11 broke during processing, so subsequent processing (processing of 30φ or less) was performed by groove rolling, and swaging was performed in the final process.
5φ Toshi 7'C.

The work hardening test was MU1, Kei 3s &4% &6, and 1
Using each of the test pieces No. 7, each test piece was drawn at various processing rates, and a tensile test was conducted after drawing. The results are shown in FIG.

In the press compression test, each test piece (2,5φ) was pressed to a thickness of 0.7t.
The press reduction blade shall be installed until the pressure is reduced. The results are shown in FIG. The press is a hydraulic press, the rolling speed is 1 ho/θec, and the metal shop used is SKD-11-(H
Rc = 60. Surface finish 0-83), lubricating oil used is spindle oil.

As is clear from Table 1 and Figures 3 and 4, test specimens with a composite ratio of the outer skin material of 10 or less cause problems in machining because the outer skin material breaks during processing. 12%
There was no problem in processing, and the test piece with a composite ratio of 70% of the shell and shell material had a large work hardening force (and the rolling force value by pressing was also large. Therefore, the above composite ratio was It is desirable to make the core material 12 to 60%.
It can be seen that the fl type has a N1 core material, has less work hardening, and has a lower press reduction edge value, and has excellent workability.

"Effects of the Invention" As explained above, one of the composite materials of this invention is Af
The fl machining is made by crimp-bonding the outer skin material made of T1 base metal to the surface of the Afffffl base alloy material, and the good workability of the core material allows for excellent overall workability, as well as AJ or By using a core material made of Affl-based alloy and reducing the amount of Ti, the influence of the processing anisotropy of T1 is reduced and the overall processability is improved, making it easy to process into complex shapes. It is suitable as a material for products requiring precise dimensions. Furthermore, since it has excellent workability, the number of man-hours for machining is reduced, and the wear and tear of machining tools is also reduced. On the other hand, another metal forming material of the present invention is such that an outer skin material made of T1 base metal is clad and crimped on the surface of a core material made of A, # or A-9 base alloy, and the surface of the outer skin material is crimped. A coating material made of Nit or N1-based alloy is clad-pressed onto the surface of the coating material, and a surface material made of Au or Au-based alloy, or PT or PT-based alloy is clad-crimped onto the surface of the coating material. It is suitable for use in products that require precise dimensions, and has low wear and tear on processing tools. Moreover, the outer sheathing material of the skin material is N
i, and the outer surface layer of the coating is All or p
It has excellent brazing properties and decorative properties.

[Brief explanation of the drawing]

Fig. 1 is a cross-sectional view showing an embodiment of a composite material of this invention made into a wire rod, and Fig. 2 is a cross-sectional view showing an example of a companion made of another composite material of this invention made into a wire rod. 3 is a diagram showing the results of the work hardening test, and FIG. 4 is a diagram showing the results of the press compression test. A... Composite material, l... Group/core material, 2...
...Skin material, B...Composite material, 11...
- Core material, 12...Outer material, 13...Coating material, 14...Mark/Surface material. Procedural amendment (voluntary) 1. Description of the case 1984 Patent Application No. 84858 2 Name of the invention Decorative Composite Material 3 Person making the amendment Patent applicant (gθ7) Nippon Gakki Mfg. Co., Ltd. 4 ``Scope of Claims'' in the attorney's specification ” column. Claims (1) On the surface of the core material made of AI or AIl-based alloy,
A decorative composite material characterized by being formed by crimping a cladding material made of Ti or Ti-based alloy. (2) The composite ratio of the outer skin material to the core material is 12 in terms of cross-sectional area ratio.
The decorative composite material according to claim 1, characterized in that the content of the decorative composite material is 60%. +a+ A/T on the surface of the core material made of AI-based alloy
An outer skin material made of a tdTi-based alloy is clad and crimped, and a covering material made of a Ni or v'iNi-based alloy is clad-crimped on the surface of the outer skin material. 1. A decorative composite material characterized by being formed by cladding and crimping a surface material made of a Pi or Pt based alloy.

Claims (1)

[Scope of Claims] +11 A decorative composite material comprising a core material made of a T1 or AJ based alloy and an outer skin material made of a T1 or T1 based alloy clad and crimped. (2) The composite ratio of the outer skin material to the core material is 1 in cross-sectional area ratio.
The decorative composite material according to claim 1, characterized in that it has a thickness of 2 to 60 inches. +21 A shell material made of a T1 base alloy is clad and crimped on the surface of a core material made of AJII or 13g alloy, and a covering material made of a N1 base alloy is clad and crimped on the surface of the skin material. . A decorative composite material, characterized in that a surface material made of an AuX' alloy, a PT, or a PT-based alloy is clad and crimped onto the surface of the covering material.