FR3122666A1 - 5xxx ALUMINUM SHEETS FOR CAN MAKING - Google Patents

Abstract

5xxx ALUMINUM SHEETS FOR CAN MANUFACTURING The invention relates to a 5xxx series aluminum sheet made of an alloy comprising in weight %: Mg: 2.5 – 4.0, Mn: 0.7 – 1.2, Fe: 0.25 – 0.55, Si: 0.20 – 0.50, Cu: 0.10 – 0.25, Cr: up to 0.1, Zn: up to 0.25, Ti: up to 0.1 , the balance being aluminum and unavoidable impurities up to 0.05 each and up to 0.15 in total. The process for producing the 5xxx series aluminum foil of the invention comprises the steps of casting an ingot with a composition according to the invention, preheating the ingot generally to a temperature of 440°C to 550° C, rough hot rolling on a reversible rolling mill with a rough hot rolling inlet temperature of more than 440°C, finishing hot rolling of the ingot with a hot rolling outlet temperature of at least 300°C, cold rolling to obtain a cold rolled sheet, optionally coating the cold rolled sheet. The invention also relates to a can end obtained from a sheet according to the invention and to a beverage can obtained from a can end of the invention and to a can body made of an AA3xxx alloy.

Description

5xxx ALUMINUM SHEETS FOR CAN MAKING

FIELD OF THE INVENTION

The present invention relates to a 5xxx series aluminum alloy sheet and its method of manufacture, particularly useful in the can manufacturing industry.

BACKGROUND OF THE INVENTION

Aluminum beverage cans are a recognized efficient and environmentally friendly solution for beverage packaging.

In order to minimize CO ₂ emissions, can manufacturers are working to reduce can body and end weight and increase the recycled content of their solutions. It should be noted that the use of 1 tonne of scrap instead of 1 tonne of primary metal reduces CO ₂ emissions by 10 tonnes.

Regarding the end of the can, also called the lid, can manufacturers gradually reduced shell diameters from 68.3 mm to 54 mm and then 50.8 mm, using optimized designs. The combination of a reduced diameter and a new shell design has enabled a reduction in caliber from 223µm to approximately 203µm and an associated significant weight reduction.

Nevertheless, lid weight reduction has leveled off for a few years and it has become increasingly difficult to reduce the caliber to less than 200 µm.

The alloy used to make the covers is usually the AA5182 alloy. Due to its great mechanical properties, AA5182 requires a high level of purity (eg Fe, Si) to obtain the necessary forming properties. Such a high level of purity of AA5182 limits its recycled content and means that AA5182 can end construction relies on primary aluminum. The use of primary aluminum increases CO ₂ emissions.

It is also preferable to be able to recycle the bobbin end and the bobbin body together since the amount of metal is greater in the bobbin body than in the bobbin end. This is why specific alloys have been developed for the bobbin end and the bobbin body.

Patent application WO2013/103957 A2 discloses an aluminum alloy and recycling process in which recycled used beverage containers form a useful alloy composition with relatively few compositional adjustments to the base body material.

Patent application WO2014/107188 A1 discloses an aluminum alloy and recycling process in which recycled used beverage containers form a useful alloy composition with relatively little or no compositional adjustments to the base materials of body, tip and tongue, outside of magnesium levels.

Patent application WO2015/200570 A2 discloses 3xxx aluminum alloys useful in the manufacture of can ends and tabs used to open cans, in particular AA3104 and AA3204 aluminum alloys,

Patent application WO2016/002226 A1 discloses an aluminum alloy sheet for a beverage can body, comprising by mass, 0.45% Si, 0.35-0.60% Fe, 0.1 -0.3% Cu, 0.5-1.5% Mn, 0.8-1.5% Mg, 0.1% or less Ti, and 0.05% or less B, the balance being Al and unavoidable impurities.

In the field of can manufacturing, there is a need for an improved aluminum foil product for manufacturing the can end that combines the right balance between different criteria: strength, formability and high recyclability.

A first object of the invention is an aluminum sheet of the 5xxx series consisting of an alloy comprising in% by weight:

Mg: 2.50 – 4.00,
Min: 0.70 – 1.20,
Fe: 0.25 – 0.55,
If: 0.20 – 0.50,
Cu: 0.10 – 0.60,
Cr: up to 0.10,
Zn: up to 0.25,
Ti: up to 0.10,
the balance being aluminum and unavoidable impurities up to 0.05 each and up to 0.15 in total.

Another object of the invention is a process for producing an aluminum sheet of the 5xxx series according to the invention comprising the successive steps of:

- casting an ingot with a composition according to the invention,
- preheating of the ingot preferably at a temperature of 440°C to 550°C,
- rough hot rolling of the ingot on a reversible rolling mill with a raw hot rolling inlet temperature of more than 440°C,
- finishing hot rolling of the ingot with a hot rolling exit temperature of at least 300°C,
- cold rolling to obtain a cold rolled sheet,
- optionally, coating of the cold rolled sheet.

Another object of the invention is a can end obtained from a sheet according to the invention.

Another object of the invention is a beverage can obtained from a can end according to the invention and a can body made of an AA3xxx alloy.

Claims (11)

Aluminum sheet of the 5xxx series made of an alloy comprising in % by weight:
Mg: 2.50 – 4.00,
Min: 0.70 – 1.20,
Fe: 0.25 – 0.55,
If: 0.20 – 0.50,
Cu 0.10 – 0.60,
Cr up to 0.10,
Zn up to 0.25,
Ti up to 0.10,
the balance being aluminum and unavoidable impurities up to 0.05 each and up to 0.15 in total. The 5xxx series aluminum foil according to claim 1, wherein the Mg content is 3.10 wt% to 3.65 wt%. The 5xxx series aluminum foil according to any one of claims 1 and 2, wherein the Mn content is 0.90 wt% to 1.10 wt%. The 5xxx series aluminum foil according to any one of claims 1 to 3, wherein the Cr content is 0.01 wt% to 0.03 wt%. The 5xxx series aluminum foil according to any one of claims 1 to 4, wherein, for an Fe content of at least 0.50% by weight, the sum of Mg + 7.9 Mn is at most 11 4% by weight, preferably at most 10.7% by weight and more preferably at most 10.1% by weight; for an Fe content of at least 0.44% by weight, the sum Mg + 7.9 Mn is at most 12.1% by weight, preferably at most 11.4% by weight and more preferably at most 10 .8% by weight; for an Fe content of at least 0.40% by weight, the sum Mg + 7.9 Mn is at most 12.5% by weight, preferably at most 11.8% by weight and more preferably at most 11 .2% by weight; for an Fe content of at least 0.35% by weight, the sum Mg + 7.9 Mn is at most 12.8% by weight, preferably at most 12.1% by weight and more preferably at most 11 .5% by weight; for an Fe content of at least 0.30% by weight, the sum Mg + 7.9 Mn is at most 13.1% by weight, preferably at most 12.4% by weight and more preferably at most 11 .8% by weight; for an Fe content of at least 0.25% by weight, the sum Mg + 7.9 Mn is at most 13.5% by weight, preferably at most 12.8% by weight and more preferably at most 12 .2% by weight. 5xxx series aluminum foil according to any one of claims 1 to 5, which is coated and preferably in an H48 metallurgical temper. A process for producing a 5xxx series aluminum sheet according to any one of claims 1 to 6 comprising the successive steps of:
- casting an ingot with a composition according to any one of claims 1 to 5,
- preheating of the ingot preferably at a temperature of 440°C to 550°C,
- rough hot rolling of the ingot on a reversible rolling mill with a raw hot rolling inlet temperature of more than 440°C,
- finishing hot rolling of the ingot at a hot rolling exit temperature of at least 300°C,
- cold rolling to obtain a cold rolled sheet,
- optionally, coating of the cold rolled sheet. Process according to claim 7, in which the liquid metal contains more than 50% by weight of recycled scrap. A method according to claim 8, wherein the recycled scrap contains more than 50% by weight used beverage can scrap.
A can end obtained from a sheet according to any one of claims 1 to 6. Beverage can obtained from a can end according to claim 10 and a can body made of an AA3xxx alloy, preferably an alloy selected from AA3002, AA3102, A A3003, AA3103, AA3103 A, AA3103B, AA3203, AA3403, AA3004, AA3004A, AA3104, AA3204, AA3304, AA3005, AA3005A, AA3105, AA3105A, AA3105B, AA3007, AA3107, AA3207, AA3207A, AA3307, AA3009, AA3010, AA3110, AA3011, AA3012, AA3012A, AA3013, AA3014, AA3015, AA3016, AA3017, AA3019, AA3020, AA3021, AA3025, AA3026, AA3030, AA3130, and AA3065, most preferably selected from AA3004, AA3004A, and AA3104.