Each diamond that emerges from the earth is distinct, and each is assigned a name and a value based on on four factors: colour, cut, clarity, and carat weight. Diamonds are available in a variety of colours, ranging from yellow to brown, but colourless diamonds are what most people identify and desire. Diamonds, in general, have a high brilliance, a refractive index of roughly 2.4, and a lot of fire. Though it may appear like diamonds are flawless, few natural things are. Inclusions are flaws found in the majority of diamonds. These naturally occurring flaws, along with many other criteria such as colour, cut, and carat weight, influence the price of a diamond.
Though cleaner diamonds are more expensive, many people appreciate the distinctiveness that an inclusion may add to a diamond. The carat weight of a diamond is the most obvious criterion for determining value. The higher the carat weight, precisely weighed, the higher the price tag.
A prevalent misperception is that lab-grown diamonds are not genuine diamonds. Despite the fact that lab-grown diamonds are not harvested from the earth and are instead developed in a laboratory, their chemical makeup and physical properties are identical to mined diamonds. These stones, however, are just as bright and gorgeous as mined diamonds! Take a peek at the Kelly lab-grown diamond engagement ring pictured below. Given their man-made origin, lab-grown diamonds are frequently referred to as synthetic diamonds; however, we at ASJ believe that "synthetic" isn't a term that accurately portrays their genuine diamond nature—after all, the difference between a lab-grown diamond and a mined diamond is origin.
While customers equate the term synthetic with imitation products, artificial diamonds are composed of the same material (pure carbon crystallised in isotropic 3D shape). As a result, in our community, they are referred to as lab-grown diamonds.
The majority of lab-grown diamonds are formed using Chemical Vapor Deposition (CVD) or high-pressure high-temperature (HPHT) crystal formation procedures. In a chamber, carbon atoms are extracted from carbon-rich gas. The crystal structure of the stone is built up layer by layer until it resembles a diamond. This process takes about 3 months for many lab-grown diamonds, but it can take much longer for natural diamonds, which take many years to produce.
Natural diamonds are mined from the ground. Lab-grown diamonds are created in laboratories. What is the origin of moissanite? The celestial bodies! Although moissanite resembles diamonds in appearance, with its white tone, bright shine, and fascinating facets, moissanite is not a diamond and is not attempting to be one. Lab-grown moissanite is not a diamond substitute, but rather a diamond alternative. Moissanite was discovered and named after Nobel Prize-winning chemist Dr. Henri Moissan in 1893, and it fell to Earth in the form of a meteorite.
Because natural moissanite is extremely rare and only found in a few places on Earth (upper mantle rock and volcano tops, for example), the majority of moissanite on the market today is lab-grown moissanite. Because of its high refractive index and dazzling fire, lab-grown moissanite is becoming increasingly popular as an engagement ring alternative (sparkle).
The lab grown diamond (man-made diamond) has surpassed the natural diamond as the second most popular choice for centre stones. For people who value size but are on a tight budget, lab diamonds will meet all of their requirements. It is a growing trend because it has the same look, feel, and even atomic structure as earth mined diamonds; in fact, they are real diamonds and test as diamonds with a diamond tester; they come with IGI certificates of authenticity; the only difference is that instead of digging it out of the earth, it is created in a lab using special machines that simulate the diamond creation process.
Moissanites, on the other hand, are much less expensive than diamonds and have almost no resale value. Moissanites are laboratory-created stimulants based on the chemical composition of a meteor's silicon carbide. They boast a brighter reflection than natural or laboratory diamonds and are as robust as sapphires, making them extremely resistant to scratches and wear and tear.
Moissanites are not diamonds, but they appear to be diamonds, and they are quite popular among young people looking for an engagement ring that fits their budget and looks nice on an engagement ring.
Natural diamonds occur throughout time deep in the Earth's mantle, between 80 and 120 miles below the surface. It's a lengthy, intricate process that takes place under extremely precise conditions that, when you think about it, are fairly astounding. Diamonds are formed when pure carbon is subjected to extremely high pressures and temperatures over an extended period of time. When volcanoes erupt, diamond-bearing rocks are transported to the surface.
Diamonds made in a laboratory, on the other hand, are not found beneath the Earth's surface. They are, however, created by duplicating the tremendous temperatures and pressures present there in order to generate man-made diamonds on demand. Some people mistake lab grown diamonds, sometimes known as synthetic diamonds, for "fake" diamonds, however this is not true.
However, if you have any questions regarding the process or a particular product, Customer Service is available by phone or email. You'll obtain the information you need from someone who is educated about the stones, shapes, and settings on the market.
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