1050 aluminium coil
In today's industrial landscape, the qualities of materials catering to various applications are paramount. Among the notable contenders for versatile manufacturing is the 1050 aluminium coil, a product frequently valued not just for its light weight, but also for its excellent corrosion resistance and workable properties.
What is 1050 Aluminium Coil?
The 1050 aluminium coil is a type of commercial-grade aluminum alloy that falls under the 1000 series of aluminum. Designed mainly for high-conductivity requirements, this alloy contains a minimum of 99.50% of aluminum content which facilitates superior processes leveraging electrical and thermal conductivity.
Market Properties
Before we dive into applications, it’s pertinent to describe the technical specifications. Here’s a compact overview in a tabulated context.
| Parameter | Details |
|---|---|
| Alloy Designation | 1050 |
| Chemical Composition | Al: 99.5% - 99.999% |
| Density | 2.7 g/cm³ |
| Melting Point | 660°C |
| Tensile Strength | 110-140 MPa |
| Yield Strength | 60-75 MPa |
| Elongation% | Up to 30% |
| Electrical Conductivity | 62-65% IACS |
| Thermal Conductivity | 230 W/m·K |
| Corrosion Resistance | Excellent |
Temper Designations and Standards
Temper designation refers to how the alloy is processed post casting. 1050 bands together temper types:
- H14: This refers to work-hardened with no anneal.
- H24: Work-hardened and strain-hardened, yielding improved ductility.
- F: This is a Fully manufactured coherent form without any additional work-hardened states.
Implementation standards for this alloy align with those defined by ASTM, specifically ASTM B210 that outlines the specification however tailored specifically toward aluminum alloy drawability-stringent criteria.
Exceptional Features and Chemical Properties
One must understand that the purity of aluminium in 1050 plays heavily into thermal and electrical applications. It serves on critical fronts like stage light reflectors, heat sink components in electronics, and industrial ducting due to stability at elevated operational temperatures.
Though not the hardest alloy, its conducive traits make it effective amongst other features such as weldability and sound conductivity. In more practical terms, the specifics flexibly align with a broad spectrum of habitats where safe operational requirements cannot be compromised.
Unique Applications
Electrical Applications: Due to its excellent conductivity, the 1050 aluminium coil is highly coveted for applications including electrical cabling and mechanical parts within transformers and heating systems.
Chemical Storage: Lustrous in its adaptability to corrosive environments, it finds deployments in tanks and chemical reactor settings necessitating inherent non-contamination principles.
Automotive Sector: From dashboards to fittings within motor engineering mechanisms, 1050 aluminium coils can also facilitate efficacy in machine fabrication displays, exemplifying efficient weight-loss methodologies with sustainable production ethics.
Heat Exchangers: The thermal energies thus deployed allows trading off temperatures overturning reliable conformations over expanses where the managing heat transactions extensively necessitated regulated material behaviors.
Architectural Aesthetics: Increasingly dominant in modern architectural designs, 1050 coils harvest surface shimmer molding characteristics perfect for decorative uses compared to regular function-driven integrants.
