There is a constant demand for better, faster, and cheaper today and this puts lots of strain on those who create and manufacture products to keep pushing the envelope and deliver what business and consumers are demanding.

Industry has pushed limits in many directions. They have found ways to increase human productivity by understanding how humans work more effectively and making sure that they adhere to these guidelines. As a result humans are able to do more in shorter periods of time with less wear and tear.

They have also increased efficiency in delivery and manufacturing processes allowing more to get done in shorter periods of time. This has been partially done by great advances in software design and delivery systems like the Internet that has set new standards for communication and interaction between vendors and strategic partners.

There have also been advances in efficiency due to the use of special materials that have properties that fit specifically with the designed manufacturing process.  Many of these special materials are called supermaterials.

Using Supermaterials

Supermaterials are either new or modified versions of materials existing in nature. They were created by humans to have qualities in addition to the ones they possess naturally. A great example of a supermaterial that everyone knows is steel, which is a super-version of iron. Steel possesses all of the qualities of iron but is also stronger and more resilient allowing it to be used in many more applications that iron. Supermaterials are used today throughout industry in many manufacturing processes that could not exist without the creation of these materials.

Synthetic Diamonds are Supermaterials

One great example of a supermaterial that has allowed several industries to advance is synthetic diamonds. These man-made stones have been modified by high tech companies like to perform better than real diamonds in many circumstances. Some synthetic diamonds improve upon natural diamonds in the areas of hardness, thermal conductivity and electron mobility. These improvements make them ideal for use in many industries today that are constantly charged with pushing the envelope on manufacturing.


The need for lighter weight but stronger aircraft has led the Aerospace industry on a quest for newer materials to construct airplanes from. The leading material being used today to meet these needs is called Carbon Fibre Reinforced Plastic (CFRP) composites. They are lightweight and incredibly strong, able to hold up in the extreme conditions aircraft encounter. CFRP is the material of the future, but it caused the need for new machining materials and processes because of its particular qualities. Synthetic diamond drill bits now cut tis material leaving clean cuts that are even and straight. This allows the aircraft to meet the current high tolerances needed to perform at such high levels of effectiveness in the air.


With the desire for harder surfaces like stone being used in construction, the need to cut these materials quickly and in elaborate ways demands harder and more resilient cutting surfaces. Synthetic diamonds are now used to cut, polish, and drill hard stone leaving clean edges and sharp cuts.

As construction and manufacturing process become more challenging, synthetic Diamonds are being called into use more and more. This is because they are a supermaterial.