"Diamonds are everlasting," as the adage goes. It is one of the most globally known products of an ad campaign of all time, thanks to a very effective branding phrase devised in 1948 to boost engagement ring sales following the Great Depression. The statement, however, is more than simply a saying; unlike some advertising strategies, it genuinely speaks a lot of truth. 

Diamond is one of the hardest substances on the planet, and with the exception of a few natural and man-made elements, it is practically impossible to break. This is why diamonds are the most popular choice for engagement rings and lab produced diamond wedding rings. Diamonds, like your love for a special person, can last many lifetimes for those looking for a romantic aspect.


Diamonds are made of pure carbon and rank at the top of the Moh's hardness scale, which is a qualitative measure that characterises the scratch resistance of materials. A lab-grown diamond is made in a laboratory from carbon and has the same chemical, optical, and physical qualities as a diamond found in the earth's crust.


To get technical, the durability of a substance is determined by its molecular structure rather than how it was made. Each carbon atom has four electrons in its outer shell, and in a diamond, those electrons are shared with four other carbon atoms to produce extraordinarily strong chemical bonds and an exceedingly hard tetrahedral crystal. In summary, a diamond's chemical composition makes it one of the toughest substances on the planet.


Lab-grown diamonds provide a conflict-free legacy that you can be proud to pass forward. While more research on their perceived environmental sustainability is needed, there is some justification to these ideas. Natural diamonds originate deep beneath the earth's surface, necessitating mining and the disturbance of environmental ecosystems to obtain. Lab-grown diamonds, on the other hand, are made in a laboratory and need significantly less energy than natural diamonds. As a result, it is understandable and logical that lab-grown diamonds are becoming a popular alternative.


Diamonds are considered one of the world's strongest materials since they rank at the top of the Moh's Scale. This is a qualitative scale that describes the scratch resistance of different minerals. Diamonds have the same chemical, visual, and physical qualities whether they are made in a lab or in the Earth's crust. When it comes to assessing durability, having the same chemical and physical qualities is the most important factor because the reason for a diamond's strength rests in its molecular structure.


However, lab-created diamonds provide a heritage that you may be proud of passing along. As we've discussed in past blogs, the mining industry is fraught with issues, both for the environment and for workers. The voyage of a mined diamond is unclear at best, from civil war conflicts in the 1990s to the issue of child labourers in mines and polishing/cutting companies, to the decline of Earth's natural resources. Even with a Kimberley Procedure certificate, there are some unknowns concerning the diamond's history due to well-known flaws in the certification process.


Diamonds created in laboratories have the same physical and chemical qualities as diamonds extracted from the soil. They are, in essence, genuine diamonds. The only difference is that they are created in a laboratory. The rest is the same. They are quite clear. They have all of the components that keep them from becoming faded or cloudy. Although some lab-grown diamonds can fade, this occurs only if the diamond is of poor grade. They lose their lustre as a result of overexposure to UV light in this situation.


One reason lab-made diamonds do not lose their lustre or become dull and hazy over time is that they are created using a procedure known as HPHT. This is an abbreviation for high-pressure, high-temperature. CVD, or chemical vapour deposition, is the other process. A chamber is filled with a mixture of hydrogen and methane gas. A diamond grows on the seed crystal in this manner. As a result, the diamond has all of the properties that prevent it from getting faded or hazy.


Wearing diamond jewellery may quickly upgrade any outfit. With a brilliant set of diamond earrings, pendants, or rings, you may transform from ordinary to spectacular in an instant. Diamonds are typically used for engagement rings because the gemstone represents deep, everlasting love.


If you're in the market for new diamond jewellery, you might be thinking whether to go with a natural or lab-grown diamond. Natural diamonds are generated by nature over billions of years, whereas lab grown diamonds are created by scientists from a mined diamond seed.


In terms of brilliance, a cubic zirconia is identical to a lab created diamond, but its chemical composition is radically different. Cubic Zirconia (or CZ) was produced in a laboratory setting in 1976, and while it has some brightness and sparkle, it scratches easily and does not last nearly as long as a natural or man-made diamond.


The process of creating a CVD diamond begins with a diamond seed. The seed is placed in a sealed chamber and heated to roughly 800 degrees. The gas is then introduced into the chamber, where the carbon atoms of the gas are broken down. The atoms of the gas adhere to the diamond seed, resulting in the formation of the diamond.