CN103469031A - Printing plate base aluminum alloy and preparation method thereof - Google Patents

Abstract

The invention discloses a printing plate base aluminum alloy and a preparation method thereof. The printing plate base aluminum alloy comprises, by mass, 0.06-0.12% of Si, 0.3-0.5% of Mg, 0.05-0.1% of Zn, 0.15-0.25% of Fe, 0.2-0.3% of Mn, 0.15-0.25% of Sb, 0.1-0.2% of V, 0.08-0.14% of Ga, 0.03-0.05% of Y, 0.02-0.03% of Sc, 0.01-0.02% of Gd, 0.01-0.02% of Ti, 0.01-0.015% of Cu, and the balance Al. Compared with 1050, 1060 and 1070 aluminum alloys, the printing plate base aluminum alloy has the advantages of good mechanical strength, good ductility, good thermal stability, good processability and the like. There are no cracks after the printing plate base aluminum alloy is hot-rolled and cold-rolled, and the surface quality and the mechanical performances of a printing plate base made through using the printing plate base aluminum alloy are excellent.

Description

A kind of printing plate-based with aluminium alloy and preparation method thereof

Technical field

The present invention relates to a kind of printing plate-based aluminium alloy and preparation method thereof of using, belong to the aluminum alloy materials field.

Background technology

Press plate is for transmitting the carrier of printing ink to the printing figure message on stock, and printing plate-based have aluminium sheet, an aniline version etc., and at present with the most use is aluminium base version, and aluminium base 1050,1060,1070 aluminium alloys that adopt process as starting material more.Above-mentioned aluminium alloy is when hot rolling, and there is rolling lines in various degree in its surface, and the organization internal non-metallic inclusion is revealed in surface, has had a strong impact on surface quality.

Summary of the invention

The object of the present invention is to provide the printing plate-based with aluminium alloy and preparation method thereof of a kind of Heat stability is good, good processability.

The technical solution used in the present invention is as follows:

A kind of printing plate-based aluminium alloy of using, its each element consists of by mass percentage: Si 0.06-0.12, Mg 0.3-0.5, Zn 0.05-0.1, Fe 0.15-0.25, Mn 0.2-0.3, Sb 0.15-0.25, V 0.1-0.2, Ga 0.08-0.14, Y 0.03-0.05, Sc 0.02-0.03, Gd 0.01-0.02, Ti 0.01-0.02, Cu 0.01-0.015, surplus are aluminium.

The printing plate-based preparation method with aluminium alloy: furnace charge is added in intermediate frequency furnace, be heated to 720-740 ℃, treat that furnace charge all melts, stir 25-35min, skim, detect alloying constituent and adjust; Then add refining agent to carry out refining, refining temperature is 715-725 ℃, and refining time is 15-20min, and standing 20-30min after refining, cast after skimming, and casting temp is 690-710 ℃; Ingot casting is warming up to 280-320 ℃ from room temperature with 110-130 ℃/h speed, insulation 3-4h; Be warming up to 460-490 ℃ with 70-90 ℃/h speed again, insulation 4-6h, then be cooled to 340-360 ℃ with 50-60 ℃/h speed, insulation 2-3h, then be warming up to 510-530 ℃ with 70-80 ℃/h of speed, insulation 3-4h; Then be cooled to 270-300 ℃ with 100-120 ℃/h speed, insulation 2-3h, the 80-90 ℃ of water of quenching, be cooled to 120-150 ℃, insulation 5-10h, air cooling to room temperature gets final product;

Described refining agent preparation method is as follows: a. takes the raw material of following weight part: magnesium chloride 10-15, bariumchloride 5-10, potassium sulphide 5-10, vermiculite 8-12, sodium aluminum fluoride 5-10, quartz sand 3-6, bauxitic clay 4-8, water glass 20-30, nano-silicon nitride 5-10, nano silicon carbide calcium 8-12; B. vermiculite, sodium aluminum fluoride, quartz sand, bauxitic clay were pulverized to the 400-500 mesh sieve, mix, add again water glass, nano-silicon nitride, nano silicon carbide calcium and appropriate water, 3000-5000rpm speed lapping 5-10min, granulate, then by the particle that makes at 450-480 ℃ of lower roasting 3-5h, be cooled to room temperature, stand-by; C. magnesium chloride, bariumchloride, potassium sulphide are mixed, be heated to 930-950 ℃, after its whole meltings, the particle that above-mentioned steps (b) is made adds in fused solution and stirs, and pours into bulk, treats that it is cooled to room temperature and is the gained refining agent.

The de-percentage of admixture of refining agent of the present invention between 65-75%, remove the inclusion in aluminium alloy and make inclusion modification effective, purify aluminium alloy and improved internal soundness, degree of porosity reduces the 1-2 degree, is controlled effectively.

 

Beneficial effect of the present invention:

Aluminium alloy of the present invention is compared than 1050,1060,1070 aluminium alloys, has good physical strength, ductility, thermostability and processing characteristics etc.This alloy through hot rolling and cold rolling after, not there will be crackle, the printing plate-based surface quality made and mechanical property excellence.

Embodiment

a kind of printing plate-based aluminium alloy of using, its each element consists of by mass percentage: Si 0.06-0.12, Mg 0.3-0.5, Zn 0.05-0.1, Fe 0.15-0.25, Mn 0.2-0.3, Sb 0.15-0.25, V 0.1-0.2, Ga 0.08-0.14, Y 0.03-0.05, Sc 0.02-0.03, Gd 0.01-0.02, Ti 0.01-0.02, Cu 0.01-0.015, surplus are aluminium.

The printing plate-based preparation method with aluminium alloy: furnace charge is added in intermediate frequency furnace, be heated to 730 ℃, treat that furnace charge all melts, stir 30min, skim, detect alloying constituent and adjust; Then add refining agent to carry out refining, refining temperature is 720 ℃, and refining time is 20min, and standing 30min after refining, cast after skimming, and casting temp is 705 ℃; Ingot casting is warming up to 280 ℃ from room temperature with 120 ℃/h speed, insulation 4h; Be warming up to 480 ℃ with 90 ℃/h speed again, insulation 5h, then be cooled to 350 ℃ with 60 ℃/h speed, insulation 2h, then be warming up to 520 ℃ with 80 ℃/hs of speed, insulation 3h; Then be cooled to 280 ℃ with 110 ℃/h speed, insulation 3h, the 80 ℃ of water of quenching, be cooled to 140 ℃, insulation 8h, air cooling to room temperature gets final product;

Described refining agent preparation method is as follows: a. takes the raw material of following weight (kg): magnesium chloride 12, bariumchloride 8, potassium sulphide 6, vermiculite 10, sodium aluminum fluoride 7, quartz sand 4, bauxitic clay 6, water glass 24, nano-silicon nitride 8, nano silicon carbide calcium 8; B. vermiculite, sodium aluminum fluoride, quartz sand, bauxitic clay were pulverized to 500 mesh sieves, mixed, then added water glass, nano-silicon nitride, nano silicon carbide calcium and appropriate water, 3000rpm speed lapping 10min, granulate, then by the particle that makes at 480 ℃ of lower roasting 3h, be cooled to room temperature, stand-by; C. magnesium chloride, bariumchloride, potassium sulphide are mixed, be heated to 930 ℃, after its whole meltings, the particle that above-mentioned steps (b) is made adds in fused solution and stirs, and pours into bulk, treats that it is cooled to room temperature and is the gained refining agent.

The aluminium alloy made is through check, and its salient features is: tensile strength 249Mpa, and yield strength is 126Mpa, elongation is 10.8%.

Claims (2)

1. the printing plate-based aluminium alloy of using, it is characterized in that: its each element consists of by mass percentage: Si 0.06-0.12, Mg 0.3-0.5, Zn 0.05-0.1, Fe 0.15-0.25, Mn 0.2-0.3, Sb 0.15-0.25, V 0.1-0.2, Ga 0.08-0.14, Y 0.03-0.05, Sc 0.02-0.03, Gd 0.01-0.02, Ti 0.01-0.02, Cu 0.01-0.015, surplus are aluminium.

2. the printing plate-based preparation method with aluminium alloy according to claim 1, is characterized in that: furnace charge is added in intermediate frequency furnace, be heated to 720-740 ℃, treat that furnace charge all melts, stir 25-35min, skim, detect alloying constituent and adjust; Then add refining agent to carry out refining, refining temperature is 715-725 ℃, and refining time is 15-20min, and standing 20-30min after refining, cast after skimming, and casting temp is 690-710 ℃; Ingot casting is warming up to 280-320 ℃ from room temperature with 110-130 ℃/h speed, insulation 3-4h; Be warming up to 460-490 ℃ with 70-90 ℃/h speed again, insulation 4-6h, then be cooled to 340-360 ℃ with 50-60 ℃/h speed, insulation 2-3h, then be warming up to 510-530 ℃ with 70-80 ℃/h of speed, insulation 3-4h; Then be cooled to 270-300 ℃ with 100-120 ℃/h speed, insulation 2-3h, the 80-90 ℃ of water of quenching, be cooled to 120-150 ℃, insulation 5-10h, air cooling to room temperature gets final product;

Described refining agent preparation method is as follows: a. takes the raw material of following weight part: magnesium chloride 10-15, bariumchloride 5-10, potassium sulphide 5-10, vermiculite 8-12, sodium aluminum fluoride 5-10, quartz sand 3-6, bauxitic clay 4-8, water glass 20-30, nano-silicon nitride 5-10, nano silicon carbide calcium 8-12; B. vermiculite, sodium aluminum fluoride, quartz sand, bauxitic clay were pulverized to the 400-500 mesh sieve, mix, add again water glass, nano-silicon nitride, nano silicon carbide calcium and appropriate water, 3000-5000rpm speed lapping 5-10min, granulate, then by the particle that makes at 450-480 ℃ of lower roasting 3-5h, be cooled to room temperature, stand-by; C. magnesium chloride, bariumchloride, potassium sulphide are mixed, be heated to 930-950 ℃, after its whole meltings, the particle that above-mentioned steps (b) is made adds in fused solution and stirs, and pours into bulk, treats that it is cooled to room temperature and is the gained refining agent.