What is Inconel Wire Mesh?
Nickel, chromium, and molybdenum are the three metals used to make Inconel wire mesh. Corrosion and oxidation resistance is a features of this type of wire mesh. As a result, it may be used in extremely bad weather, under intense pressure, and in extremely hot settings. Applications involving pressure valves, heat exchange, and chemical processing all require Inconel Wire Mesh. Additionally, it provides resistance to pressures brought on by corrosive acids and has high tensile strength, elastic modulus, and durability.
The strength of Inconel originates from its resistance to oxidation even at extremely high temperatures. Because of this, it is perfect for use on aircraft engines and other parts that must endure high temperatures. The material is also resistant to seawater corrosion and is simple to weld or join with other materials using solders and adhesives that can withstand heat treatment, making it a very flexible option for all kinds of industrial applications.
Characteristics of Inconel 625 Wire Mesh
- In an oxidation and reduction environment, excellent resistance to various corrosive media;
- Maintain resistance to corrosion caused by inorganic acids, pitting, and crevice corrosion;
- The results of the welding process and the processing of the parts were good;
- A high-temperature-resistant material;
- Stability, tensile, and yield strength are high.
Uses of Inconel Wire Mesh
High-quality, corrosion-resistant Inconel 625 Wire Mesh can be used in a range of applications. Iron, nickel, and chromium make up the extruded alloy. Since the alloy has such a high strength-to-weight ratio as a result of this combination, it is so robust that warships employ it for armor plates.
It has been used to make many different items due to its great hardness, including electric wires and cables. In fact, it was one of the first types of wire mesh to be mass-produced when electricity started to be used in homes and businesses across the nation. Due to its longevity and resistance to rusting and corrosion, it is still among the most often used materials for producing electric wires today.
In addition, it is frequently used to create medical equipment, such as surgical instruments and dental tools that require durability for long periods of time while preventing excessive wear on its parts as a result of friction or rubbing up against each other during movement by medical practitioners or dental patients.