1050 Aluminium Strip Features
A 1050 Az alumínium szalag kiváló tulajdonságairól ismert, amelyek sokféle alkalmazásra alkalmassá teszik. Íme néhány fő jellemzője:
- High Electrical Conductivity: It’s often used in the electrical and chemical industries due to its high electrical conductivity.
- Korrozióállóság: Offers excellent resistance to corrosion, making it ideal for use in environments where it may be exposed to the elements.
- High Ductility: Its high ductility allows it to be easily formed and used for various applications.
- Highly Reflective Finish: The reflective surface is beneficial for applications such as lamp reflectors.
- Moderate Strength: While it’s not the strongest of aluminium alloys, it provides sufficient strength for general sheet metal work.
- Good Workability: It can be easily cold worked, which is great for manufacturing processes.
- Hegeszthetőség: It has excellent weldability with certain filler wires, making it versatile for fabrication.
Ezek a tulajdonságok teszik a 1050 aluminium strip a versatile material used in many industries, including construction, decoration, and radiator manufacturing. It’s also used for food industry containers, architectural flashings, and cable sheathing.
Kémiai összetétele 1050 Alumínium
Here’s the chemical composition of 1050 aluminium in a tabular format:
Elem |
Ajándék |
Alumínium (Al) |
>= 99.50 % |
Réz (Cu) |
0-0.05% |
Magnézium (Mg) |
0-0.05% |
Szilícium (És) |
0-0.25% |
Vas (Fe) |
0-0.4% |
Mangán (Mn) |
0-0.05% |
Cink (Zn) |
0-0.05% |
Titán (Nak,-nek) |
0-0.03% |
Vanádium, V |
<= 0.05 % |
Egyéb, minden egyes |
<= 0.03 % |
This composition makes 1050 aluminium highly ductile, Korrózióálló, and conductive.
Performance of 1050 Aluminum Strips
Mechanikai tulajdonságai 1050 Alumínium szalag
the mechanical properties for 1050 aluminum in different tempers (Specific data comes from the authoritative website Matweb):
Ingatlan |
1050-O |
1050-H14 |
1050-H16 |
1050-H18 |
Keménység, Brinell |
21 |
30 |
35 |
43 |
Szakítószilárdság, Végső (MPa) |
76.0 |
110 |
131 |
160 |
Szakítószilárdság, Hozam (MPa) |
28.0 |
103 |
124 |
145 |
Szakadási nyúlás (%) |
39 |
10 |
8.0 |
7.0 |
Tensile Modulus (GPa) |
69.0 |
69.0 |
69.0 |
69.0 |
Nyírási modulus (GPa) |
26.0 |
26.0 |
26.0 |
26.0 |
Nyírószilárdság (MPa) |
51.0 |
69.0 |
76.0 |
83.0 |
Please note that the values are typical and provided by the Aluminum Association, Inc. They are not intended for design purposes. The hardness values are given in Brinell hardness, which is measured with a 500 kg load and a 10 mm-es golyó. Tensile strength and shear strength are given in MPa (Megapascals), and elongation at break is given as a percentage. The tensile modulus and shear modulus are given in GPa (Gigapascals).
1050 Aluminium Strips Electrical Conductivity
here is a table summarizing the electrical conductivity of 1050 aluminum strips in different tempers. The electrical resistivity is given in ohm-cm, and the International Annealed Copper Standard (IACS) values are calculated for each temper.
Kedély |
Elektromos ellenállás (ohm-cm) |
IACS Value (approx.) |
1050-O |
0.00000281 |
61.05 |
1050-H14 |
0.00000290 |
59.32 |
1050-H16 |
0.00000290 |
59.32 |
1050-H18 |
0.00000290 |
59.32 |
Please note that the IACS values are approximate and are calculated using the formula:
IACS=(1Resistivity of the material)×100IACS=(Resistivity of the material1))×100
The resistivity of annealed copper is taken as the reference with a value of 0.00000673 ohm-cm at 20°C, which is assigned an IACS value of 100. The calculated IACS values for the 1050 aluminum tempers are based on their respective resistivities provided in the datasheets.
The IACS values for the 1050 aluminum tempers indicate that they have lower electrical conductivity compared to copper, which is consistent with aluminum’s position in the conductivity series. The slight variations in resistivity and the corresponding IACS values between the different tempers reflect the changes in the material’s microstructure due to the various heat treatments and cold working processes.
1050 Aluminium Strips Thermal Conductivity
The thermal conductivity of 1050 aluminum strips in different tempers, as provided in the datasheets from the links you’ve shared, is summarized in the table below. The thermal conductivity values are given in W/m-K (Watts per meter-Kelvin), which is a measure of a material’s ability to conduct heat.
Kedély |
Hővezető (W/m-K) |
1050-O |
231 |
1050-H14 |
227 |
1050-H16 |
227 |
1050-H18 |
227 |
The thermal conductivity values for 1050-O and 1050-H14 through 1050-H18 are quite similar, with a slight variation between 227 és 231 W/m-K. This indicates that the different tempers of 1050 aluminum have a relatively consistent ability to conduct heat, which is an important property for applications where thermal management is a consideration.
It’s important to note that the thermal conductivity can be influenced by several factors, including temperature, material processing, and the presence of impurities or other alloying elements. The values provided here are typical and may vary depending on the specific manufacturing process and the conditions under which the material is used.
Tolerances for 1050 Aluminium strips
Here is a table with the tolerances for 1050 aluminum strips, including the corresponding inch conversions:
Tolerance Type |
Tolerance Range (mm) |
Tolerance Range (hüvelyk) |
Thickness Tolerance |
+/-0.005mm to +/-0.15mm |
+/-0.0002 in to +/-0.0059 ban ben |
Width Tolerance |
+/-0.1mm to +/-2mm |
+/-0.004 in to +/-0.079 ban ben |
Length Tolerance |
+/-0.5mm to +/-10mm |
+/-0.02 in to +/-0.394 ban ben |
Flatness Tolerance |
Varies with material dimensions |
Varies with material dimensions |
Please note that the inch conversions are based on the approximate conversion factor of 1 inch = 25.4 mm. The flatness tolerance is not provided with specific values because it varies with the dimensions of the material and is typically measured using a bow gauge, which measures the deviation from a flat surface over a specified length. This tolerance must be discussed and specified with the supplier to meet the particular requirements of the application.
1050 Aluminum Strip Applications and Specifications
General Uses of 1050 Alumínium szalag
A 1050 aluminum strip is a versatile material used across various industries due to its properties. Íme néhány gyakori alkalmazás:
- Daily Necessities
- Lighting Fixtures
- Reflective Panels
- Decorations
- Chemical Industry Containers
- Heat Sinks
- Signs
- Elektronika
- Lamps
- Névtáblák
- Electrical Appliances
- Stamping Parts
This aluminum strip is particularly beneficial in applications requiring high corrosion resistance and formability without the need for high strength, such as in chemical equipment.
1050 Aluminum Strip for Transformer Winding
A 1050 aluminum strip is favored for transformer windings because of its:
- High Electrical and Thermal Conductivity (hozzávetőlegesen, körülbelül 62% IACS)
- Light Weight
- Korrozióállóság
These properties make it suitable for weight-sensitive transformer applications and ensure a longer service life due to its resistance to corrosion.
Specifications for Transformer Winding
- Ötvözet: 1050
- Vastagság: As required, typically in the range of transformer applications
- Szélesség: As required, to fit the winding specifications
1050 Aluminum Strip for Electrode Foil In the production of electrolytic capacitors, 1050 aluminum strip serves as electrode foil due to its necessary high surface finish and purity. It is crucial for capacitor performance that the material is free from impurities such as oil stains and oxide skins.
Leírás |
Érték |
Ötvözet |
1050A-O |
Vastagság |
0.08mm |
Szélesség |
60mm |
1050 Aluminum Strip for Condenser For condenser applications, a 1050 aluminum alloy is chosen for its:
- High Electrical Conductivity
- Kiváló alakíthatóság
- Korrozióállóság
- Low Density and Lightweight
This makes it ideal for household appliances and refrigeration systems.
Leírás |
Érték |
Ötvözet |
1050-H24 |
Vastagság |
0.15mm |
Szélesség |
500mm |
1050 Aluminum Composite Panel (ACP) A 1050 ACP is a sandwich panel used in building decoration, offering aesthetics and durability. It is made by bonding two aluminum panels with a core material, which can be polyethylene, polyurethane, or a refractory mineral core.
Leírás |
Érték |
Ötvözet |
1050A-H14 |
Vastagság |
0.3-0.5mm |
Szélesség |
800mm |
A 1050 ACP is popular in the construction industry for its versatility in colors, finishes, and sizes, allowing for custom designs for various projects. It is used in building cladding, jelzések, and interior decoration.
Factors to consider when choosing 1050 Aluminum Strip for your application
Amikor kiválasztja a 1050 Aluminum Strip for your application, here are some key factors to consider:
- Kémiai összetétel: Ensure the alloy’s composition meets your project’s requirements.
- Korrozióállóság: Evaluate the environment in which the aluminum strip will be used to ensure adequate resistance.
- Alakíthatóság: Fontolja meg, hogy az anyag milyen könnyen formálható és formázható az adott alkalmazáshoz.
- Hegeszthetőség: Ha a projektje hegesztést igényel, ellenőrizze, hogy a 1050 ötvözet alkalmas az Ön által használni kívánt hegesztési technikákhoz.
- Erő és tartósság: Mérje fel a mechanikai tulajdonságokat, hogy megbizonyosodjon arról, hogy képes ellenállni az alkalmazás által okozott feszültségeknek.
- Költség: Vegye figyelembe az ötvözet árát és azt, hogy az hogyan illeszkedik a költségvetésébe.
Továbbá, az alumínium szalag temperamentuma, mint például a H14 félkeményre, befolyásolhatja tulajdonságait és bizonyos alkalmazásokhoz való alkalmasságát, mint a vegyipari feldolgozó üzemek berendezései vagy az élelmiszeripari konténerek.
A hogyan átfogó megértéséhez 1050 Az alumínium szalag megfelel az Ön igényeinek, legjobb, ha konzultál egy anyagszakértővel vagy a szállítóval. Részletes információkkal szolgálhatnak az ötvözet tulajdonságairól és a különféle iparágakban való lehetséges felhasználásairól.