JPS6067073A - Mirror face working method of aluminum and aluminum alloy - Google Patents

Abstract

PURPOSE:To mirror finish aluminum and aluminum alloy with finish accuracy better than 0.05mumRmax by pressing a polish member of specific grain size against the face to be worked with specific force. CONSTITUTION:A polishing member 5 is pressed against both faces of rotating work 1 then working liquid 7 is fed through the feed path 6 and polishing member 5 to the surface of work 1 thereafter the polishing member 5 and holder 3 are moved unilaterally in perpendicular direction with the rotary shaft of jig 2 of work 1 thus to mirror finish the work 1 made of aluminum or aluminum alloy. Here, the grain size of polishing member 5 is made to be #1500-#8000 while the pressing force is 0.1-2kgf/cm<2> and the surface finish accuracy is better than 0.05mumRmax.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a method for mirror polishing aluminum and its alloys using a machining fluid and a polishing port.
The purpose is to finish to a mirror surface of x or less.

In order to increase the recording information density, disc-shaped two crops such as magnetic discs for computers require a high degree of shape and a mirror finish, and in production, a low degree of curvature is required. High production efficiency is desired.

By the way, one of the lower stages of the conventional 41 product to obtain a mirror surface of aluminum material is diamond ha (l:'11' using 1.
There is a l'l' one-degree turning method, and high quality workpieces can be obtained7.
1, but the problems with this method are the large-scale translation and installation and the low 1-noise property.

The precision grinding method using all the grinding wheels in pH 1 is also an example of a method that is being used effectively, but even with this method, a sufficient tithe surface cannot be obtained due to the grinding wheels being separated, etc. In addition, ensuring the accuracy of the device becomes a problem.

On the other hand, a machining fluid that has a thick η-force of 60d)・n/cnl or more and has a function of suppressing surface oxidation of aluminum and its alloys, and an ILF that has one water flow.
The method of improving the mirror finish of the aluminum material by cleaning I≠I'A once a month is to obtain a stable high-quality 71 with less scratches and a profit of 7.

This invention has been made with the above points in mind,
Surface strength 5 Q dyn 10n and above 1: Mirror finishing of aluminum and its alloys using a machining fluid that has a function of suppressing surface oxidation of aluminum and its alloy phase, and a polishing port with water passage 17F containing abrasive grains. The present invention provides a method for mirror-finishing aluminum and its alloys, which is characterized by the following:

Therefore, 7 due to this older brother νJ is efficiently 005μ
A mirror surface of less than mlLmax can be easily obtained.

The present invention will now be described in detail with reference to drawings showing embodiments thereof.

First, machining of a disc-shaped workpiece will be explained with reference to FIG.

In the same figure ((1) a disc-shaped workpiece made of aluminum AA held by a 1-inch rotation fixture (2), (3) a U-shaped holding part with the tip sectioned i+'+, (4) is a holder (
3) The press (=1 tool) attached to the left and right inner surfaces of the tip of (
5) is a thick layer of water-permeable flexibility (if) that contains abrasive grains and is attached to the inner surface of the both-boss tool (4), and both abrasive tools (5) are arranged symmetrically, and Particle size is #1500
~tsooo. (6) are supply paths for machining fluid (7) formed by penetrating the tool (4) at the tip of the holder (3), and the machining fluid (7) has a surface tension of 6Q.
dyn/cm or less and good aluminum surface thi oxidation inhibitor 1
Look at the function of 1Δ.

During machining, the workpiece (1) is rotated by id, jig (2), and the abrasive material (5) symmetrically arranged on both sides of the workpiece (]) is Apply pressure to the polishing liquid (7) from the supply channel (6).
5) through - [supply to the surface of the crop (1) and retain the shell (
(5) Move the entire jig (2) in the - direction or in the reciprocating direction in a direction perpendicular to the rotation axis of the jig (2).

Figure 2 shows the number of rotations of a workpiece with an area of 15crd at 5001
Gate 1, under the conditions that the abrasive grain size of the abrasive grain is 111500 and the moving speed of the abrasive grain is 40 mm 1 g 1n, the relationship between the push force 1 of Ag and the roughness of the machining fluid, and the flow rate Q of the machining fluid (7). The surface direction of the workpiece is 0.
3 μml (...+1.%).

The processing fluid (d) has the function of suppressing surface oxidation of the aluminum surface, and must be sufficiently supplied to the working surface of the polishing fluid (d).
This required amount affects the pushing force of the polishing phase, and in the embodiment of FIG. 2, a minimum of 0.5 (j/mir+) is required.

On the other hand, the roughness of the machined surface is determined by the roughness of each abrasive grain size, which is Even when a sufficient amount of pressure is supplied, when the pressing pressure is above a certain value (=j pressure), there is a tendency for the pressing pressure to decrease as the pressing pressure increases.As shown in Fig. 2, this value 2 to 9f/cII or higher.

Note that in the region where the push-j pressure is low, 0.1 kgf/cnj or less, the productivity is low because the number of removed stars is small.

If the grain size is finer than 8000, the reaching power is 11] -21 mountain roughness 0.01μm1lIII
A mirror surface of less than ax can be obtained.

As shown above, 7i1F has a surface tension of 60 (JyII/cm or less) and has a processing wash-off function with oxidation inhibition R+'+j of aluminum A, and water flow containing abrasive grains.
JM IA is used to polish aluminum with an abrasive grain size of #J5oo to #8000 in the @1rii processing method.
Using X-J, press the abrasive material to 0.1-2 9"
/cni range, Q, Q 5 μm
A mirror surface of R+rm,x or less can be obtained.

The above explanation is about the mirror finishing method for a disc-shaped workpiece.
In addition, as shown in Fig. 3, mirror iM and i cutting of a half-sided workpiece of 1/1 with a rotating disc-shaped tool, and as shown in Fig. 4, a four-sided tool (l) Circle 1::) This invention can also be used for mirror finishing of workpieces.

In Figure 3, (8) is a workpiece made of 11-plane aluminum H, (9) is the rotating shaft of a rotating disk-shaped tool, and (10
i, disk-shaped part a, j attached to the tip of the rotating shaft (9)
Both, (o) U press 1J tool (101) is attached to the grinding machine, and the machining liquid is formed on the rotating shaft (9), until the a @ h / ) to the workpiece (8).

Next, as shown in Figure 41, there is a cylindrical work piece consisting of (7th, aluminum), (+3 i'J Q lit d'
I concave 1 mountain #) S (lli) JI Jj,, (M)
N, -I- Attached to the end face of the shell 00 h k ? +If j
'fi JJ Adashi, Ko JL (Kasumi no

[Brief explanation of the drawing]

The drawings show examples of the mirror polishing force θ of aluminum and its alloy according to the present invention, and FIG. 1 (Ll,), (1
)) u, 1 example o, r+-+ji, 1 figure, part l, 7Ir! JrUI Te side 1Δ, 2131st is A11j
Figures 3 and 4 are front views of the pressure and other examples. (],), (8), (l Gong... workpiece, (5
), θυ, (]4) ... Torimori. Figure 1 4(a) of Patent Attorney Fukutabe Fujita. (b) Figure 3 Figure 4 Figure 2

Claims (1)

[Claims] ■ 61' to a method for mirror polishing aluminum and its alloys using a processing fluid with a surface tension of 60 dyn 10 n or less and a function of suppressing surface oxidation of aluminum particles and its alloy phase, and a water-permeable polishing port containing abrasive grains. l? Mirror finishing of aluminum and its alloys as a.