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Boron Carbide – What is it and what does it do?
Boron carburide also known by the name black diamond has a molecular formulation of B4C. It is typically gray-black in powder form. It is one the three hardest substances known. It’s used in many industrial applications, including tank armor and body shields.
Upgrade to High-Grade Body armor
In the past 12 year, researchers have looked for ways to reduce damage caused by bullets traveling at high speeds hitting armor made from boron carbide. Dr. Kelvin Yu Xie Assistant Professor of Materials Science and Engineering said: “Our research has now met this need. This is an important step toward designing advanced body armor to protect against powerful weapons in battle.
Boron carbide has been called a “black diamand” and is only second in hardness to cubic boron. The boron-carbide armor material is lighter and harder than silicon carbide and easier to mass-produce.
Boron Carbide Body Armor Lack
According to Texas A&M University’s research, boron carbide can be easily damaged by high-speed impacts. Xie, in a recent statement, said: “Boron carbide is able to stop bullets traveling at 900 m/s. It can therefore effectively block the majority of pistol bullets. But if the speed is exceeded, boron carbide will lose its trajectory. Performance has become less efficient.”
Scientists have discovered that high-speed vibrating boron carbide will lead to a phase transition, whereby the internal structure of the material will be altered and it will appear in more than one physical state at once. The bullet’s impact transforms boron carbide from a systematically organized crystalline state into a disorderly-arranged glass state. This glassy state weakens material integrity in the area of contact between the bullet and the boron-carbide.
Boron Carbide Plus Silica: Benefits
Xie explained: “When boron carbide undergoes a state change, its glassy form creates a path that cracks can follow. Therefore, local damage from a bullet’s impact will easily spread to the entire material. .”
Previous computer simulations suggested that adding small amounts other elements could make boron carbide less brittle. The researchers used a diamond tip to create controllable dents in a boron-carbide sample. This was done to simulate the initial impact from a high speed bullet. They used a powerful electron microscope to see the micro-damage caused by the impact.
Xie, his colleagues and their research showed that the amount of phase changes was reduced by 30% even if there is a low silicon content. This reduces indentation damage by a significant margin. Xie says that while silicon may enhance the properties boron carbide, further experiments are necessary to find out if other elements also can improve the properties.
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