Was ist 1050 aluminum sheet/plate?
Was ist 1050 aluminum sheet grade?1050 Aluminiumblech wird durch Verarbeitung hergestellt 1050 Aluminium. Zu den konkreten Verarbeitungsschritten zählen das Schmelzen und Gießen, Kaltwalzen und Warmwalzen, Blattschneiden, Oberflächenbehandlung, Inspektion und Verpackung, usw.
Perfect 1050 Aluminiumtafel
1050 aluminum plate represents a specific alloy type of aluminum plate, regardless of size, Dicke, annealing state.
1050 Aluminiumblech, 10 represents the 1000 series pure aluminum sheet, 50 represents the aluminum content of 99.50%; the same 1060 represents the aluminum plate with an aluminum content of 99.60% in the 1000 series pure aluminum plate.
How to produce 1050 aluminum sheet/plate?
The production process of 1050 aluminum plate is very mature and can be produced in large quantities quickly, but the production process is relatively cumbersome, and each step has strict requirements on the quality of the product;
- Raw material selection: select high-purity aluminum ingots as raw materials, and determine the specifications and purity grades of aluminum ingots as required.
- Smelting and casting: heating the aluminum ingot to the melting point, and then pouring the molten aluminum into the mold for casting to obtain an aluminum slab.
- Rough rolling: Continuously rolling the aluminum slab to a certain thickness and width, this step is usually called rough rolling.
- Intermediate annealing: Annealing the rough-rolled aluminum plate to make it more uniform and reduce the stress in the plate.
- Intermediate rolling: Intermediate rolling is performed on the aluminum sheet after intermediate annealing to achieve the desired thickness and size.
- Sheet annealing: sheet annealing is performed on the aluminum plate to make it moderately hard and achieve the required mechanical properties and formability.
- Sheet rolling: sheet rolling is performed on the annealed aluminum sheet to further precisely control its thickness and width.
- Oberflächenbehandlung: cleaning, polishing, oxidation and other treatments are performed on the surface of the aluminum plate to achieve specific surface effects and functions.
Introduction to the performance of 1050 Aluminiumteller
1050 aluminum plate chemical composition
Chemisches Element | Mangan (Mn) | Eisen (Fe) | Kupfer (Cu) | Magnesium (Mg) | Silizium (Und) | Zink (Zn) | Titan (Von) | Andere (Jede) | Aluminium (Al) |
Gegenwärtig (%) | 0.0 – 0.05 | 0.0 – 0.40 | 0.0 – 0.05 | 0.0 – 0.05 | 0.0 – 0.25 | 0.0 – 0.07 | 0.0 – 0.05 | 0.0 – 0.03 | Gleichgewicht |
1050 Physikalische Eigenschaften von Aluminiumblechen
Physikalische Eigenschaft | Wert |
Dichte | 2.71 g/cm³ |
Schmelzpunkt | 650 °C |
Wärmeausdehnung | 24 x10^-6 /K |
Elastizitätsmodul | 71 GPa |
Wärmeleitfähigkeit | 222 W/m.K |
Elektrischer widerstand | 0.0282 x10^-6 Ω .m |
Mechanische Eigenschaften von 1050 Aluminiumteller
1050 aluminum plate has excellent mechanical properties, such as tensile strength, Streckgrenze, elongation, usw., Aber 1050 aluminum plates with different thicknesses and different tempering states correspond to different mechanical properties;
Legierungszustand | Specified | Zugfestigkeit | Streckgrenze | Verlängerung | ||||||||
Dicke(mm) | (MPa) | (MPa) | (%) | |||||||||
1050-O/ 1050-H111 | 0.2-0.5mm | 65-95 | Min20 | Min20 | ||||||||
0.5-1.5mm | Min22 | |||||||||||
1.5-3.0mm | Min26 | |||||||||||
3.0-6.0mm | Min29 | |||||||||||
6.0-12.5mm | Min35 | |||||||||||
12.5-80.0mm | ||||||||||||
1050-H112 | 6.0-12.5mm | Min75 | Min30 | Min20 | ||||||||
12.5-80.0mm | Min70 | Min25 | ||||||||||
1050-H12 | 0.2-0.5mm | 85-125 | Min65 | Min2 | ||||||||
0.5-1.5mm | Min4 | |||||||||||
1.5-3.0mm | Min5 | |||||||||||
3.0-6.0mm | Min7 | |||||||||||
6.0-12.5mm | Min9 | |||||||||||
12.5-40.0mm | ||||||||||||
1050-H14 | 0.2-1.5mm | 105-145 | Min85 | Min2 | ||||||||
1.5-3.0mm | Min4 | |||||||||||
3.0-6.0mm | Min5 | |||||||||||
6.0-12.5mm | Min6 | |||||||||||
12.5-25mm | ||||||||||||
1050-H16 | 0.2-0.5mm | 120-160 | Min100 | Min1 | ||||||||
0.5-1.5mm | Min2 | |||||||||||
1.5-4.0mm | Min3 | |||||||||||
1050-H18 | 0.2-0.5mm | Min135 | Min120 | Min1 | ||||||||
0.5-1.5mm | Min140 | Min2 | ||||||||||
1.5-3.0mm | Min2 | |||||||||||
1050-H19 | 0.2-0.5mm | Min155 | Min140 | Min1 | ||||||||
0.5-1.5mm | Min150 | Min130 | ||||||||||
1.5-3.0mm | ||||||||||||
1050-H22 | 0.2-0.5mm | 85-125 | Min55 | Min4 | ||||||||
0.5-1.5mm | Min5 | |||||||||||
1.5-3.0mm | Min6 | |||||||||||
3.0-6.0mm | Min11 | |||||||||||
6.0-12.5mm | Min12 | |||||||||||
1050-H24 | 0.2-0.5mm | 105-145 | Min75 | Min3 | ||||||||
0.5-1.5mm | Min4 | |||||||||||
1.5-3.0mm | Min5 | |||||||||||
3.0-6.0mm | Min8 | |||||||||||
6.0-12.5mm | ||||||||||||
1050-H26 | 0.2-0.5mm | 120-160 | Min90 | Min2 | ||||||||
0.5-1.5mm | Min3 | |||||||||||
1.5-4.0mm | Min4 | |||||||||||
1050-H28 | 0.2-0.5mm | Min140 | Min110 | Min2 | ||||||||
0.5-1.5mm | ||||||||||||
1.5-3.0mm | Min3 |
1050 Aluminiumblechfabrik
As China’s leading 1050 Hersteller von Aluminiumblechen, Huawei Aluminum has twenty years of experience in aluminum sheet production. We are also a 1050 aluminum sheet high quality manufacturer, able to provide high-quality services and high-quality products, and provide the best aluminum sheet prices.
What is the difference between 1050 Und 1100 Aluminiumtafel?
1050 aluminum sheet vs 1100 Aluminiumblech
The difference in alloy composition:
1050 Aluminiumblech: 1050 aluminum is a pure aluminum alloy containing 99.5% aluminum and very small amounts of alloying elements. It is often referred to as “commercial pure” Aluminium.
1100 Aluminium: 1100 aluminum is also a pure aluminum alloy with an aluminum content of 99.0% and very few alloying elements. Purity is similar to 1050 Aluminium.
Aluminum sheet alloy characteristics:
Beide 1050 Und 1100 Aluminiumplatten have excellent corrosion resistance, high thermal conductivity, and good electrical conductivity.
They are both soft and malleable, making them suitable for a variety of forming processes such as deep drawing, spinning and welding.
Common applications of aluminum sheet:
Due to their high corrosion resistance, these aluminum alloys are often used in applications that require exposure to moisture or corrosive environments. Common applications include: roofing and cladding materials, reflective panels and decorative items, chemical and food packaging.
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