JPH0791650B2 - Diamond coated tungsten carbide based cemented carbide cutting tool chip - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial field of application] The present invention is made of a diamond-coated tungsten carbide-based cemented carbide which has a diamond coating layer with extremely high adhesion strength and therefore exhibits excellent cutting performance for an extremely long period of time. It relates to cutting tool tips.

[Conventional technology]

In recent years, much research has been done to form a diamond coating layer on the surface of various types of substrates. The methods include the CVD method (chemical vapor deposition method) by the thermal decomposition of gas such as CH ₄ and the PVD method in which carbon ions are made to collide with the substrate. Low pressure vapor phase synthesis methods such as (physical vapor deposition) have been proposed.

[Problems to be solved by the invention]

However, since the diamond coating layer formed by the above low-pressure vapor phase synthesis method has low adhesion strength to the substrate, it is currently impossible to put it into practical use as a cutting tool tip under high load. Is.

[Means for solving problems]

Therefore, from the viewpoints described above, the present inventors have formed a diamond coating layer having high adhesion strength on a substrate, and in order to enable its use as a cutting tool, tungsten carbide (hereinafter referred to as WC) is particularly used as a substrate. ) As a result of conducting research focusing on the base cemented carbide, (a) diamond nuclei are generated on the surface of the WC base cemented carbide substrate in the low pressure vapor phase synthesis method on WC, and on the Co, diamond nuclei are formed. Part of it turns into graphite.

(B) Therefore, it is preferable that the Co content as a binder phase in the WC-based cemented carbide substrate is as small as possible. However, considering that it will lead to a decrease in alloy strength if the Co content is 1 to 4 weight%. When it is set to%, the adhesion strength of the diamond coating layer is high and the strength as a cutting tool can be secured.

(C) The grain size of WC in the WC-based cemented carbide is defined as coarse grains, and 2
If the average particle size is up to 10 μm, the diamond coating layer will be formed faster and its adhesion strength will be higher.

The findings shown in (a) to (c) above have been obtained.

The present invention has been made based on the above findings, and has a composition containing Co: 1 to 4% by weight, the balance being WC and unavoidable impurities, and coarse particles having an average particle size of 2 to 10 μm. Diamond-coated WC formed by forming a low-pressure vapor-phase synthetic diamond coating layer on the surface of a WC-based cemented carbide substrate having a structure
It is characterized by a cutting tool tip made of base cemented carbide.

In the diamond-coated WC-based cemented carbide cutting tool tip of the present invention (hereinafter abbreviated as coated cutting tip), the Co content is limited to 1 to 4% by weight as described above. If the content is less than 1% by weight, the substrate strength required for the cutting tool tip cannot be secured. On the other hand, if the content exceeds 4% by weight, not only the formation rate of the diamond coating layer becomes slow, but also the diamond This is because some of them are graphitized, and it becomes impossible to secure the desired excellent wear resistance and adhesive strength, and the reason why the average particle size of WC is coarse particles of 2 to 10 μm is If the average particle size is less than 2 μm, not only the formation rate of the diamond coating layer becomes extremely slow as described above, but also the adhesion strength becomes low, while the WC having an average particle size exceeding 10 μm. Since the production of the cemented carbide is difficult, it is to the average particle diameter was defined as 2 to 10 [mu] m.

〔Example〕

Next, the coated cutting tip of the present invention will be specifically described by way of examples.

First, as the raw material powder, various WC powders having a predetermined average particle diameter within a range of 2 to 10 μm and Co powder of the same 1.2 μm were used, and these raw material powders were blended to a predetermined blending composition,
After that, they are mixed under normal conditions, press-molded, sintered (sintering temperature: a predetermined temperature within the range of 1430 to 1500 ° C), and then polished to obtain the shape of CIS (Cemented Carbide Tool Association) standard SPP432. And has the composition of components, the average particle size of WC, and the Rockwell hardness (A scale) shown in Table 1, respectively.
A throw-away tip was formed as a WC-based cemented carbide substrate.

Then, as described in, for example, Japanese Patent Application Laid-Open No. 58-91100, and as schematically shown in FIG. 1, chemical vapor deposition using a hot filament as a thermoelectron emitting material which is one of the low pressure vapor phase synthesis methods. Using the apparatus, the substrate 5 after the above-mentioned etching treatment is placed on the support base 4 located below the metallic tungsten hot filament 3 provided in the reaction vessel (diameter: 120 mm quartz tube) 1 of the apparatus. CH ₄ through the reaction mixture gas introduction pipe 2 opened above the hot filament 3.
And H ₂ and a reaction mixture gas of CH ₄ / H ₂ : 0.005 in volume ratio was introduced, substrate temperature: 700 ° C., hot filament temperature: 200
Diamond coating was carried out under the conditions of 0 ° C., atmosphere pressure in reaction vessel: 10 torr, and reaction time: 3 to 6 hours for a predetermined time, and a diamond coating layer having an average layer thickness shown in Table 1 on the surface of the substrate. To form the coated cutting chips 1 to 7 of the present invention and the comparative coated cutting chips 1 to 3, respectively.

In each of the comparative coated cutting chips 1 to 3, any one of the component composition of the substrate and the average particle size of WC is out of the range of the present invention.

Next, the coated cutting chips 1 to 7 of the present invention obtained as a result of the above
And for the comparative coated cutting tips 1 to 3, the work material: Al-18 wt% Si alloy, Cutter diameter: 160 mm diameter double positive type, cutting speed: 550 m / min, feed: 0.15 mm / blade, depth of cut: 1 mm, cutting time: 100 minutes, and a milling cutting test is performed. The peeling state of the coating layer, the welding state of the work material, and the state of the cutting edge itself were observed, and the amount of wear was measured. The results are shown in Table 1.

〔The invention's effect〕

From the results shown in Table 1, the coated chips 1 to 1 of the present invention
In No. 7, since the tire mond coating layer was formed quickly and the adhesion strength to the substrate was extremely high, there was almost no peeling of the coating layer or welding of the work material to the cutting edge, and the cutting edge also showed normal wear. In addition, while showing excellent wear resistance, as seen in the comparative coated cutting tips 1 to 3, if any of the component composition of the substrate and the average particle size of WC is out of the range of the present invention. , The diamond coating layer forming speed is slow, or the adhesive strength is reduced, so that a phenomenon not desirable as a cutting tool appears on the cutting edge, and it is clear that the desired wear resistance is not exhibited. is there.

As described above, in the diamond-coated WC-based cemented carbide cutting tool tip of the present invention, the diamond coating layer
Since the adhesion strength to the surface of the WC-based cemented carbide substrate is extremely high, it exhibits excellent cutting performance for an extremely long period of time.

[Brief description of drawings]

FIG. 1 is a schematic explanatory view of a chemical vapor deposition apparatus using a hot filament as a thermoelectron emitting material. 1: reaction vessel, 2: reaction mixture gas introduction tube 3: hot filament, 4: support 5: substrate

Front Page Continuation (72) Inventor Hiroaki Yamashita 1-297 Kitabukuro-cho, Omiya City, Saitama Mitsubishi Metal Co., Ltd. Central Research Laboratory (72) Inventor Hironori Yoshimura 1-27-20 Nishishinagawa, Shinagawa-ku, Tokyo Mitsubishi Metal shares Company Tokyo Manufacturing (56) References JP-A-58-91100 (JP, A)

Claims (1)

[Claims] 1. A tungsten carbide-based cemented carbide containing Co: 1 to 4% by weight, the balance being tungsten carbide and unavoidable impurities, and having a coarse grain structure with an average grain size of tungsten carbide of 2 to 10 μm. A diamond-coated tungsten carbide-based cemented carbide cutting tool tip having a low-pressure vapor-phase synthetic diamond coating layer formed on the surface of a substrate.