Specifications Table

Product Name – Aluminum Magnesium Gauze, Alloy 5056, 30 Mesh Woven from 0.23mm Wire
Quantity/Pack Size – 150x150mm – 75x75mm – 300x300mm
Form – Woven Wire Mesh
Grade – Alloy 5056
Application – Lab filtration, heat shielding, catalytic support, corrosion-resistant experiments

Product Overview

This aluminum-magnesium alloy 5056 gauze is engineered for precision lab applications where durability and thermal efficiency are critical. Woven from 0.23mm (0.009in) diameter wire into a 30-mesh configuration, it offers an optimal balance between airflow and particle retention, making it ideal for filtration systems, heat distribution, and catalytic support structures. The alloy 5056 composition ensures exceptional corrosion resistance—even in humid or chemically active environments—while maintaining lightweight properties for easy handling. Its uniform weave pattern guarantees consistent performance across experiments, with no risk of wire deformation under standard lab conditions. The gauze’s high melting point (600°C+) and non-magnetic properties further expand its utility in thermal and electromagnetic applications. Unlike standard aluminum meshes, the magnesium infusion enhances mechanical strength without compromising flexibility, allowing for custom cutting or shaping to fit specialized apparatus. Each sheet undergoes rigorous quality checks to eliminate defects, ensuring reliable results in repetitive or long-duration experiments.

FAQs

1. What is the maximum temperature this aluminum-magnesium gauze can withstand without deformation?

It maintains structural integrity up to 600°C in continuous use, though brief exposure to higher temperatures may cause slight oxidation without immediate failure.

2. Can this gauze be used with acidic or alkaline solutions?

The alloy 5056 offers moderate resistance to mild acids and bases but may corrode in concentrated solutions; rinse thoroughly with deionized water after exposure.

3. How does the 30-mesh weave compare to finer or coarser meshes for filtration?

30 mesh balances flow rate and particle retention for general lab use—finer meshes (e.g., 60 mesh) capture smaller particles but clog faster, while coarser meshes (e.g., 10 mesh) allow higher throughput with less precision.

4. Is this gauze compatible with autoclaving or steam sterilization?

Yes, it can be autoclaved at 121°C for standard cycles, but prolonged steam exposure may accelerate surface oxidation; dry thoroughly before reuse.

5. What alternatives exist if I need a non-metallic mesh with similar properties?

For non-metallic options, consider PTFE-coated fiberglass mesh (chemical-resistant) or ceramic fiber mesh (high-temperature), though these lack the thermal conductivity of aluminum-magnesium alloys.