What are the benefits of tungsten rivet connection?

1. High strength and hardness

High strength : Tungsten is a high-density metal that can be made into rivets with extremely high strength after alloying with other metals. This high strength allows tungsten rivets to withstand greater tension and shear forces, ensuring the stability of the connection.

High hardness : Tungsten rivets are generally of high hardness, which means that they can maintain a long service life in high stress or wear environments and are not prone to deformation or breakage.

2. Excellent corrosion resistance and high temperature resistance

Corrosion resistance : Tungsten alloy rivets generally have good corrosion resistance, which can maintain the stability of the connection in humid and corrosive environments, reducing the risk of failure caused by corrosion.

High temperature resistance : In high temperature environments, many materials will soften or deform, while tungsten rivets can maintain the strength and stability of the connection under high temperature conditions due to their excellent high temperature resistance.

3. Precise size and stable performance

Precise size : The manufacturing process of tungsten rivets is usually precision-processed to ensure that the size of the rivets is accurate and meets strict assembly requirements.
Stable performance : During long-term use, the performance of tungsten rivets is relatively stable and is not easily affected by the external environment and changes significantly.

4. Reduce structural weight
Lightweight design : In fields such as aerospace, lightweight structural parts are of great significance for improving flight efficiency and reducing energy consumption. Due to its high density and high strength, tungsten rivets can reduce the amount of material used while ensuring the connection strength, thereby achieving lightweight design of the structure.

In summary, tungsten rivet connections have the advantages of high strength, high hardness, excellent corrosion resistance and high temperature resistance, precise size and stable performance, reduced structural weight, improved assembly efficiency and quality, and wide applicability.