Synthetic diamonds are created though a process called chemical vapor deposition. The process works by growing diamonds from a mixture of hydrocarbon gas. This is considered an ideal process as there is absolute control over chemical impurities. It is a very simple and flexible process and is the preferred method for creating artificial diamonds in a laboratory setting.
Synthetic diamonds created by the CVD method have a surprisingly large array of properties. The properties that have the widest appeal are:
1. Mechanical- Synthetic diamonds are exceptionally hard. This makes them a great option for extending the life of tools. They are also capable of being manufactured with extremely fine edges. This proves useful for precision cutting applications.
2. Thermal- Synthetic diamonds have four times the thermal conductivity of copper with an extremely low rate of thermal expansion. They are a favored tool in the use of optimal performing thermal management applications.
3. Electrochemical- By being inert in a chemical and biological sense, synthetic diamonds are used in harsh environs that would destroy lesser materials. They are widely used in facilitating ozone production in such locales as hospitals and hotels, and they are regarded as the most efficient method for this in the world today.
Synthetic diamonds are also utilized in an astonishing assortment of uses. Scalpels used in neurosurgery and ophthalmic surgery are possessed of blades with synthetic diamond edges. They are found in the particle detectors in the world-famous Large Hadron Collider in Switzerland. They are even used in high-tech optical laser applications within the automotive industry, where CO2 lasers are required for optimum cutting tools.
You can learn more about the deposition of chemical vapors and the process of creating synthetic diamonds and their many uses from leading industry news sources such as VTC Magazine. Publications such as this always have the latest in tips and technological breakdowns for those that need or want to know, and who want to stay on the cutting edge of some of the most exciting advances and breakthroughs in the scientific and industrial fields that use them.