For fine jewellery and engagement rings, lab-grown diamonds are becoming a more popular trend.
Lab-grown, ethically sourced diamonds have a similar appearance to natural diamonds in chemical composition. Lab-grown stones are 50-70% cheaper than natural diamonds, if not enough. This allows you to maximize your budget by choosing a larger carat and a decorative setting.
These are some impressive reasons to choose a lab-grown, natural diamond as your engagement ring’s centre stone. Lauren B places a strong emphasis on diamond education. We won’t leave you without any details and will send you on your journey.
Let’s dive deeper into lab-grown diamond incentives. Here are 5 reasons you should choose a centre stone made of lab-grown.
A lab-grown diamond can be a real diamond.
It’s that simple. Lab-grown diamonds can be considered real if two gemstones have identical chemical compositions and physical properties. (Hint, everyone, including the HTMLGIA institute and the FTC, recognizes lab-grown diamonds as real.
Lab-grown diamonds are as brilliant and bright as natural diamonds. Your lab-grown diamond will shine and sparkle with the same passion as a natural one.
Lab-grown diamonds also have the same durability as natural diamonds, with a Mohs Hardness Scale rank of 10. Lab-grown diamonds can withstand daily wear and tear with the same elegance and grace as natural diamonds.
We mean the only difference between lab-grown and natural diamonds. It may seem insignificant to some, but it can be a significant difference to others. As the name suggests, a lab-grown diamond has been grown in a laboratory environment. This mimics the natural conditions necessary to create a natural diamond.
The ethically sourced lab-grown diamonds are also environmentally friendly.
Lab-grown diamonds can be a great choice for the altruistic bride. They are ethically sourced and environmentally friendly because of where they were grown.
Two methods are used to create lab-grown diamonds: high pressure-high temperature, HPHT, or chemical vapor deposition (CVD).
A small diamond seed is placed in carbon using the HPHT method for lab diamond creation. The diamond seed is placed in carbon using either a belt or cubic press. It is then subject to extreme pressure (approximately 1.5 Million pounds per square inch) at temperatures up to 1,500° Celsius. After the carbon has melted, it forms a diamond by circulating the diamond seed. The result is a pure-carbon diamond once it has cooled.
A small amount of diamond seed is required for the CVD process. This must be placed in a well-sealed chamber. The chamber is heated to approximately 8000 degrees Celsius and then filled with carbon-rich gases. The plasma is created by microwave-like technology. It is then ionized to form the gas. This breaks down the molecular bonds within the gas. The crystallization process begins when the carbon bonds itself to the diamond seeds.
You can see that neither one of these processes require mining for diamonds. It is no longer necessary to consider lab diamond creation’s ethical sourcing and environmental impact. It is worth noting that 99.9% of all mined diamonds have been conflict-free since 2003 created the Kimberley Process.
Lab-grown diamonds are typically 50-70% cheaper than natural diamonds.
That’s right! Lab-grown diamonds can be a lot cheaper than natural diamonds. This price gap is especially compelling when paired with identical chemical composition and physical properties to natural diamonds. What is the cause of this exaggerated price gap?
Lab-grown diamonds are lab-grown. This eliminates many of the costs associated with natural mining while maintaining the same cost for cutting, polishing and inspecting the diamond.
Recent technological advancements and increased competition have led to further cost savings in producing lab-grown gems. This results in lower prices while maintaining the same high-quality standards.
Now, the time is right to select a centre stone from a lab-grown Diamond Center Stone for your Engagement Ring. Prices for lab-grown Diamonds have finally stabilized after volatile fluctuations.
Natural diamonds are very rare. The formation of natural diamonds takes over a billion years, and mining is exhausting. Although lab-grown diamonds are identical to natural diamonds in physical properties and chemical composition, they are produced in a laboratory environment that eliminates the supply limit.
When a diamond cutter shapes a natural diamond to its best shape, its primary goal is to preserve as much of it as possible, even if this means they have to cut a stone with a lower standard colour or clarity. When cutting lab-grown diamonds, the focus is on maximum brilliance, face-up dimensions, and no matter what shape. This results in a flawless diamond with extraordinary brilliance and larger-than-average face-up dimensions.
Lab-grown diamonds can be scaled up without paying the high price of natural diamonds.
You have more options when choosing a lab-grown stone for your engagement ring’s centre stone.
This 2.3 carat F colour, VS1 clarity lab-grown diamond could be yours for just $7,130. You can also get it for $10,000 with extra money for a fancy setting.
Lab-grown diamonds are a great option if you and your partner want a bigger centre stone.
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