JPH02111634A - Plunger for glass formation - Google Patents

Abstract

PURPOSE:To obtain the title plunger which can prevent the formation of oxidized scales and metal powders and improve greatly the impact strength of glass bottles by padding a self-dissolving Co alloy containing Cr3C2 in a specific proportion on the surface of the heat-resistant steel material. CONSTITUTION:A self-dissolving Co alloy of high resistance to heat and oxidation is combined with 10 to 90wt.% of Cr3C2 of high hardness. The Cr3C2- containing self-dissolving Co alloy is plasma-sprayed on the parent material made of heat-resistant steel, for example, SCM-21 to form an overlay of a prescribed thickness. The resultant plunger is greatly improved in its strength at elevated temperature, not oxidized and corroded by high-temperature glass. Thus, the glass bottles produced using the plunger are not scratched by the oxidized scales or metal particles whereby the impact strength is increased about double in comparison with the bottle made using the conventional plunger.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to an improvement in a glass molding plunger used in press blow molding a glass bottle.

(Prior art) A plunger for press-plow molding of glass bottles is a mold that forms a parison by directly contacting high-temperature molten glass. Alternatively, efforts have been made to increase heat resistance and abrasion resistance by building up Ni-Cr based self-fusing alloy to a thickness of about 0.5 mm. (For example, Japanese Patent Application Laid-Open No. 54-146818) However, because the Ni-Cr based self-fluxing alloy has low oxidation resistance, the surface of the plunger is oxidized, and the oxide scale peeled off from the surface of the molded glass bottle. adheres to the inner surface,
This caused fine scratches on the inner surface of the glass bottle, reducing the impact strength of the glass bottle. In addition, although Co-based self-fusing alloys have superior oxidation resistance compared to Ni-Cr-based alloys, their strength at high temperatures is low, so the surface of the plunger is gradually scraped off by glass during molding.
The scraped metal powder adhered to the inner surface of the glass bottle, reducing the impact strength of the glass bottle in the same manner as described above.

(Problems to be Solved by the Invention) The present invention solves these conventional problems, prevents oxide scale and metal powder from being generated from the surface of the plunger, and thereby improves the quality of molded glass bottles. This was made in order to provide a plunger for glass molding that can significantly improve the impact strength of the glass.

(Means for Solving the Problems) The present invention is characterized in that a Co-based self-fluxing alloy containing 10 to 90% (by weight) of Cr*Cz is built up on the surface of a base material made of heat-resistant steel. It is something.

C r i Ct used in the present invention has a melting point of 18
It is a hard, flaky material that has excellent heat resistance at 90°C, oxidation resistance, and high-temperature strength, and it also has excellent affinity for Co-based self-fluxing alloys, which have traditionally been used to build up the plunger surface. . Cr3C2 is mixed in powder form with a powder of a Co-based self-fluxing alloy, and is built up on the surface of a heat-resistant steel base material such as SCM-21. Cr5Cz has a great effect on improving the heat resistance and high-temperature strength of the plunger surface, but if it is less than 10%, the effect of improving high-temperature strength is insufficient, and if it exceeds 90%, pinholes etc. It is necessary to keep the amount within the range of 10 to 90% since this increases and makes it impossible to obtain a smooth surface.

Further, as the Co-based self-fusing alloy, self-fusing alloys having various compositions such as Stellite 6 and Stellite 20 containing 30% or more of CO can be used. Such a mixture of Co-based self-fluxing alloy and Cr5Ct is deposited on the surface of the base material by thermal spraying methods such as flame spraying, plasma spraying, jet spraying, and explosive spraying, but in addition to these, HIP treatment,
Overlaying may be done by a method such as overlay welding, and the overlay thickness is not particularly limited, but it is 0.5 mm as usual.
Before and after is enough.

(Function) As described above, in the present invention, Cr:+Cz with high hardness is added to the Co-based self-fluxing alloy with excellent heat resistance and oxidation resistance.
Since a material containing 10 to 90% of is used, the high-temperature strength can be greatly improved, and the plunger surface will not be oxidized or scraped even by high-temperature glass. Therefore, the inner surface of the glass bottle molded using the plunger of the present invention is not damaged by oxide scale or metal powder, and the impact strength is 2 times higher than that of glass bottles molded using the conventional plunger. It is possible to improve the performance by about twice as much.

The effects of the present invention will be specifically illustrated below using data from examples.

(Example) Example 1 Co-based self-fusing alloy called Stellite 6, consisting of 26% Cr (wt 1), 5% W, 01%, and the balance Co.
SCML
The material was thermally sprayed onto the surface of a base material made of L by a plasma spraying method to form a built-up layer with a thickness of 0.5 mm.

Using this plunger, heavy hardness 170 gr, content 30
A 0cc glass bottle was breath blow molded. When we sampled 20 molded glass bottles and measured their strength, we found that the strength was at least 10.
2. Maximum 18. 1, an average value of 16.5 was obtained.This means that the impact strength of glass bottles formed using a plunger sprayed with a conventional Ni-Cr alloy is 5.7 at the lowest and 8 at the highest.
．． 7. This is about double the average value of 7.7.

In addition, the plunger was heated in an oxidizing atmosphere furnace at 700'C for 5 hours, and the change in surface roughness was measured. It was 0.2μ before heating and 0.4μ after heating, and the hardness was Hv = 780. . On the other hand, when a plunger using a conventional Ni-Cr self-fusing alloy and a plunger using a Co-based self-fusing alloy that does not contain CrzCz were tested under the same conditions, the following results were obtained. It became.

Example 0.2μ before heating 0.4μ after heating Ilv
・78ONi-Cr series
1.5μ 1lv=820Co system
0.5 a Hv=500 Example 2 30 parts of Cr5Cz powder was mixed into 70 parts of a CO-based self-cooling alloy powder called Stellai) 20 consisting of 33% Cr, 18% W, 2.5% C, and the balance CO. D-11
5! Plasma sprayed onto the surface of the base material. When press blow molding of glass bottles was performed using this plunger under the same conditions as in Example 1, the impact strength of the molded glass bottles was 12.1 for the lowest among 20 bottles, 17.8 for the highest, and 17.8 for the average. was 17.0. Further, when the plunger was subjected to a heating test in the same manner as in Example 1, the surface roughness before heating was 0.
2μ, 0.4μ after heating, and IIv =800.

(Effects of the Invention) As explained above, the present invention achieves the same hardness as Ni-Cr alloys while maintaining oxidation resistance by incorporating Cr3C2 into CO-based self-melting alloys. This was a success, and it is extremely effective in preventing the generation of oxide scale and scraped metal powder during glass molding, and improving the impact strength of glass bottles. Therefore, the present invention makes an extremely large contribution to the industry as a glass molding plunger that solves the conventional problems.

Claims (1)

[Claims] A plunger for glass forming, characterized in that a Co-based self-fusing alloy containing 10 to 90% (by weight) of Cr_3C_2 is built up on the surface of a base material made of heat-resistant steel.