CN106167876A - A kind of glass alloy mould and manufacture method thereof - Google Patents

Abstract

The invention discloses a kind of glass alloy mould, including following components in percentage by weight: aluminium powder 6.0 15%, manganese powder 0.16 0.35%, copper powder 1.8 7.2%, nikel powder 2.5 6.0%, remaining is iron powder and general impurity.The glass alloy base mould material proportioning of the present invention is scientific and reasonable, and the interpolation of manganese and nickel can effectively strengthen the physical properties such as heat-resisting, wear-resisting, antioxidation, the thermal fatigue resistance of mould, and preparation technology is simple, the cycle is short, greatly reduces the production cost of enterprise.

Description

A kind of glass alloy mould and manufacture method thereof

Technical field

The present invention relates to glass mold processing technique field, particularly to a kind of alloy glass

Glass mould and manufacture method thereof.

Background technology

Glass mold is the main production equipment of glass, is substantially divided into container glass mold and vessel class glass Glass mould.Glass in process of production, the quality of surface quality and the height of production efficiency, depend primarily on cavity surface Fineness, precision and and the material of mould, owing to the temperature of mould molding product is high, the shadow acted on by oxidation, heat exhaustion etc. Ringing relatively big, this will ask mold materials to have good physical characteristic, furthermore it is required that mould coefficient of thermal expansion is little, be prone to processing.

Manufacturing of glass mold is typically all the design carrying out mould according to the requirement of client, then carries out the system of mold base Work, polish and assembling, need to be processed by numerical control programming and Digit Control Machine Tool for baroque glass mold, its The difficulty of processing is big, the cycle is long, and manufacturing cost is higher.

Summary of the invention

Present invention aim to overcome above-mentioned deficiency, propose a kind of glass alloy mould and manufacture method thereof.

The technical scheme is that

A kind of glass alloy mould, including following components in percentage by weight:

Aluminium powder 6.0 15%

Manganese powder 0.16 0.35%

Copper powder 1.8 7.2%

Nikel powder 2.5 6.0%

Remaining is iron powder and general impurity.

The manufacture method of a kind of glass alloy mould, comprises the following steps:

(1) aluminium powder and copper powder being put into oscillator to be sufficiently mixed, incorporation time is 30 40 minutes, be subsequently adding manganese powder, Nikel powder and iron powder mix again, and incorporation time is 20 25 minutes, and concussion frequency during mixing is 15 18kHz；

(2) above-mentioned compound carrying out at 1,050 1200 DEG C melting, wherein smelting time is 4 4.5 hours；

(3) above-mentioned compound being carried out heat treatment, heat treatment temperature is 550 720 DEG C, and the time is 35 hours；

(4) above-mentioned compound is poured into a mould, temperature be down to 105 DEG C after stripping forming.

Beneficial effects of the present invention: the glass alloy base mould material proportioning of the present invention is scientific and reasonable, manganese and the interpolation of nickel The physical properties such as heat-resisting, wear-resisting, antioxidation, the thermal fatigue resistance that can effectively strengthen mould, preparation technology is simple, the cycle is short, significantly drops The production cost of Di Liao enterprise.

Detailed description of the invention

Below in conjunction with embodiment, the invention will be further described.

Embodiment 1

A kind of glass alloy mould, including following components in percentage by weight:

Aluminium powder 6.0%

Manganese powder 0.16%

Copper powder 1.8%

Nikel powder 2.5%

Remaining is iron powder and general impurity.

The manufacture method of a kind of glass alloy mould, comprises the following steps:

(1) aluminium powder and copper powder being put into oscillator to be sufficiently mixed, incorporation time is 30 minutes, is subsequently adding manganese powder, nikel powder Again mixing with iron powder, incorporation time is 20 minutes, and concussion frequency during mixing is 15kHz；

(2) above-mentioned compound carrying out at 1050 DEG C melting, wherein smelting time is 4 hours；

(3) above-mentioned compound being carried out heat treatment, heat treatment temperature is 550 DEG C, and the time is 3 hours；

(4) above-mentioned compound is poured into a mould, temperature be down to 105 DEG C after stripping forming.

Embodiment 2

A kind of glass alloy mould, including following components in percentage by weight:

Aluminium powder 10.8%

Manganese powder 0.21%

Copper powder 4.7%

Nikel powder 5.0%

Remaining is iron powder and general impurity.

The manufacture method of a kind of glass alloy mould, comprises the following steps:

(1) aluminium powder and copper powder being put into oscillator to be sufficiently mixed, incorporation time is 36 minutes, is subsequently adding manganese powder, nikel powder Again mixing with iron powder, incorporation time is 23 minutes, and concussion frequency during mixing is 17kHz；

(2) above-mentioned compound carrying out at 1150 DEG C melting, wherein smelting time is 4.2 hours；

(3) above-mentioned compound being carried out heat treatment, heat treatment temperature is 615 DEG C, and the time is 4 hours；

(4) above-mentioned compound is poured into a mould, temperature be down to 105 DEG C after stripping forming.

Embodiment 3

A kind of glass alloy mould, including following components in percentage by weight:

Aluminium powder 15%

Manganese powder 0.35%

Copper powder 7.2%

Nikel powder 6.0%

Remaining is iron powder and general impurity.

The manufacture method of a kind of glass alloy mould, comprises the following steps:

(1) aluminium powder and copper powder being put into oscillator to be sufficiently mixed, incorporation time is 40 minutes, is subsequently adding manganese powder, nikel powder Again mixing with iron powder, incorporation time is 25 minutes, and concussion frequency during mixing is 18kHz；

(2) above-mentioned compound carrying out at 1200 DEG C melting, wherein smelting time is 4.5 hours；

(3) above-mentioned compound being carried out heat treatment, heat treatment temperature is 720 DEG C, and the time is 5 hours；

(4) above-mentioned compound is poured into a mould, temperature be down to 105 DEG C after stripping forming.

Claims (3)

1. a glass alloy mould, it is characterised in that include following components in percentage by weight:

Aluminium powder 6.0 15%

Manganese powder 0.16 0.35%

Copper powder 1.8 7.2%

Nikel powder 2.5 6.0%

Remaining is iron powder and general impurity.

2. the tensile strength of glass alloy mould described in is 50 65Kg/mm, and material hardness is 169 241HB, and elongation percentage is 3%, pyroconductivity is 0.21 0.35k/M.S. DEG C.

3. the manufacture method of a glass alloy mould, it is characterised in that comprise the following steps:

(1) aluminium powder and copper powder being put into oscillator to be sufficiently mixed, incorporation time is 30 40 minutes, be subsequently adding manganese powder, Nikel powder and iron powder mix again, and incorporation time is 20 25 minutes, and concussion frequency during mixing is 15 18kHz；

(2) above-mentioned compound carrying out at 1,050 1200 DEG C melting, wherein smelting time is 4 4.5 hours；

(3) above-mentioned compound being carried out heat treatment, heat treatment temperature is 550 720 DEG C, and the time is 35 hours；

(4) above-mentioned compound is poured into a mould, temperature be down to 105 DEG C after stripping forming.