Density of WL10 Tungsten: What is it and why is it so important?

WL10 tungsten is a special alloy used in many industries worldwide, including welding, aerospace, and electronics. If you want to know about the properties, specific density, etc., of WL10 tungsten, then read this article in full.

What is WL10 Tungsten? 

The density and high durability of WL10 tungsten make it quite different and valuable from other materials. Let's explore its technical and practical aspects.

WL10 tungsten is an alloy typically made of tungsten and a little lanthanum oxide. It contains 90-97% tungsten and about 1-2% lanthanum oxide (La2O3). This alloy is ideal for high-temperature applications as it offers high melting points and electrical conductivity

WL10 tungsten is designed to maintain its properties even in heavy-duty applications. Its density and unique qualities make it a highly preferred material.

Density of WL10 Tungsten: What does it mean? 

The most important characteristic of WL10 tungsten is its density, which is around 19.25 g/cm³, making it one of the densest materials. High-density materials are always preferred in applications where strength and durability are required. Hence, WL10 tungsten is extensively used in the aerospace and medical industries.

Density refers to how much mass is contained in a certain volume. High density means that more mass can be contained in a smaller space, which increases strength and ensures durability. Having high density is very beneficial in heavy-duty and high-pressure applications.

WL-10 Effect of Tungsten and Density on Applications

The high density ensures that WL10 tungsten fits perfectly in applications where high weight and strength are required, such as in the aerospace, defense, and manufacturing industries.

WL10 tungsten is used in electrodes, welding equipment, and even high-temperature furnaces as its density and stable nature can easily withstand high temperatures.

WL10 tungsten's relationship with density also gives it an advantage in machining and fabrication. High-density materials such as WL10 tungsten are more accessible to mold into precise shapes and sizes because you maintain uniformity and stability even under extreme conditions.

Difference between Tungsten and WL10 Tungsten

Many people consider tungsten and WL10 tungsten to be the same, but they have some subtle differences. Tungsten is a pure metal known for its high density and melting point, while WL10 tungsten is an alloy that combines tungsten and 1% lanthanum oxide. This combination gives WL10 tungsten unique properties that are not found in pure tungsten.

Like various tungsten alloys, WL10 tungsten is also customized for specific industrial requirements. Its density is an important feature that gives it an edge over pure tungsten.

The presence of lanthanum oxide increases the workability and machinability of WL10 tungsten, which may be difficult to achieve with pure tungsten

Density and Durability: A Perfect Comb

With the high density of WL10 tungsten and the stability of lanthanum oxide, this alloy provides long-term durability. This means that WL10 tungsten components have a very long life and do not need to be replaced as frequently, which reduces maintenance costs. WL10 tungsten has a very high density, directly impacting its wear resistance and lifespan.

 

High-density WL10 tungsten is also used in the electronics and medical industries. The alloy's high density ensures that it is also effective in radiation shielding, which is important in medical imaging and radiography equipment. Among high-density materials, tungsten, and WL10 tungsten are considered efficient and reliable for radiation shielding.

Selection Criteria of WL10 Tungsten 

WL10 tungsten is selected in many applications due to its density and durability. If one needs a material that offers high density and strength while being lightweight, there are better choices than WL10 tungsten because it weighs more due to its high density. But, if strength and durability are key factors, WL10 tungsten can be a perfect fit.

Its density and unique combination of materials convert WL10 tungsten into an alloy that can tolerate extreme environments without degrading.

The density of WL10 tungsten is one of the critical decision-making factors because high-density materials can be expensive, but their lifetime and reliability justify the cost.

The high-density nature of WL10 tungsten is one of this alloy's key benefits, leading to its use in the aerospace, defense, manufacturing, and electronics industries.

WL10 tungsten alloys offer high density and stability, which is essential in critical applications. WL10 tungsten is unique among tungsten alloys because it provides both durability and machinability, which are necessary in the industrial and commercial sectors.

• WL10 Tungsten Real Life Examples
  

Therefore, if you are looking for a high-density material that can withstand extreme conditions, WL10 tungsten could be an ideal option. Its density and stability make it a long-lasting and durable choice that proves cost-effective and efficient in many applications.