Alloy | Usage |
EN AW-1050A | It is the most pure form of aluminium and the most common plate alloy. The alloy has a good property regarding bending and welding, and it is suitable for surface treatment. It contains 99.5 % aluminium, and they mainly produce it in thickness from 0.5 mm - 6 mm. EN AW-1050A DDQ: It contains 99,5% aluminum and is produced in a very soft temper, making it suitable for deep drawing applications. Mainly produced in thickness 1,00 mm, 1,25 m, 1,05 mm and 2,00 mm. |
EN AW-2007 | A copper alloy that typically contains between 4.0 and 5.0 % copper, and it is suitable for producing machine parts, bolts and rivets. It looks very much like EN AW-2011, but it is yet a bit harder. It is a short-chipped alloy, which is suitable for treatment, threads and high machining speeds. The alloy has a low corrosion resistance and is not suitable for welding because of the high content of copper. It is not approved by the ROHS. |
EN AW-2011 | A copper alloy that typically contains between 4.0 and 5.0 % copper, and it is suitable for producing machine parts, bolts and rivets. It looks very much like an EN AW-2007, but it is a bit softer. It is a short-chipped alloy, which is suitable for treatment, threads and high machining speeds and gives a shiny surface after treatment. It has a high strength against metal fatigue. The alloy has an inferior corrosion resistance, and it is not suitable for welding because of the high content of copper. It is possibly approved after the ROHS. |
EN AW-2014 | A copper alloy that typically contains between 4.0 and 5.0 % copper. It is a short-chipped alloy, which is suitable for treatment, and it has a high strength and is thereby as EN AW-2011 and EN AW-2007. It is harder than an EN AW-2011. Typically, you use the alloy for military purposes and for the aviation industry. It is approved after the ROHS. |
EN AW-2017A | A copper alloy with a high content of copper. It is a short-chipped alloy, which is suitable for treatment. The alloy has a low corrosion resistance, and it is not suitable for welding because of the high content of copper. It is not suitable for decorative anodising |
EN AW-2024 | A copper alloy with high content of copper. It is a short-chipped alloy, which is suitable for treatment. The alloy has a low corrosion resistance, and it is not suitable for welding because of the high content of copper. It is not suitable for decorative anodizing. |
EN AW-3003 | A manganese alloy with a high corrosion resistance. The alloy has an average strength and is suitable for welding and bending. |
EN AW-3005 | A manganese alloy with a high corrosion resistance. The alloy has an average strength and is suitable for welding and bending. |
EN AW-3103 | A manganese alloy with a high corrosion resistance. The alloy has an average strength and is suitable for welding and bending. |
EN AW-3105 | A manganese alloy with a high corrosion resistance. The alloy has an average strength and is suitable for welding and bending. |
EN AW-5005 | It is good for machining and bending and has a high corrosion resistance and good for welding. The alloy is very suitable for decorative anodizing. |
EN AW-5005A | It is good for machining and bending and has a high corrosion resistance and good for welding. The alloy is very suitable for decorative anodising. |
EN AW-5052 | It is easy processing and has a high corrosion resistance and good for welding. The alloy is not suitable for decorative anodising. |
EN AW-5083 | It is sea water resistant and has an average strength, high corrosion resistance and good for welding Medium for anodizing |
EN AW-5086 | It is sea water resistant and has an average strength, high corrosion resistance and good for welding Medium for anodizing. |
EN AW-5754 | It is sea water resistant and has an average strength, high corrosion resistance and good for welding Medium for anodizing. |
EN AW-5754 Cast | Like EN AW-5754, but has better form stability and more suitable for processing. It can also be supplied as precision milled surface and produced to achieve best properties for anodizing. |
EN AW-6005A | It is an alloy with an average corrosion resistance and good for welding. The alloy strength is higher than the one of EN AW-6063. |
EN AW-6026 | It is a short-chipped alloy with a high strength and average corrosion resistance and medium for welding. Medium for anodizing. |
EN AW-6060 | Is suitable for anodizing, and has a high corrosion resistance and good for anodizing. The alloy is suitable for welding. |
EN AW-6061 | Is suitable for anodizing, and has a high corrosion resistance and good for anodizing. The alloy is suitable for welding. |
EN AW-6063 | Is suitable for anodizing, and has a high corrosion resistance and good for anodizing. The alloy is suitable for welding. |
EN AW-6082 | Has a high strength and a good corrosion resistance. The alloy is good for welding, and you can anodize it. |
EN AW-6101B | Is suitable for ornamental anodizing, and has a high corrosion resistance and good for anodizing. The alloy is suitable for welding. |
EN AW-7010 | Is a short-chipped alloy with a very high strength. The alloy has a low corrosion resistance and a low welding- and anodizing level. |
EN AW-7020 | Is a short-chipped alloy with a very high strength. The alloy has a low corrosion resistance and a low welding- and anodizing level. |
EN AW-7075 | Is a short-chipped alloy with a very high strength. The alloy has a low corrosion resistance and a low welding- and anodizing level. |