LAB DIAMONDS IN KELLER, TX
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FREE SHIPPING ON ALL DOMESTIC ORDERS
LOW PRICE GUARANTEE
Lab Diamonds sold in Keller, TX
Looking for an amazing deal on lab created diamonds in Keller, TX? These diamonds are identical to natural diamonds in every way, but are much more affordable and are cruelty-free. So don't miss out on this great opportunity to get the diamond you've always wanted without breaking the bank.
What are lab grown diamonds?
Diamonds, the most elite kind of valuable gems, are an excellent example of the astounding beauty of what nature can imbue. Lab-grown gems are made by people when they recreate the exact materials in which natural diamonds are created. A lab-grown gem is a beautiful, affordable alternative to genuine diamonds. These stones are optically, chemically, and physically identical to natural diamonds.
How are they made?
Diamonds are formed by placing carbon under great pressure. Efforts to make diamonds in the laboratory began in the late 19th century with cheap carbon and intense heat and pressure to mimic the Earth's role in the metamorphism.
Refinements have allowed for the creation of nearly identical products made from chemical vapor deposition (CVD), high temperature high pressure (HTHP) and other technologies. The process involves beginning with carbon seed and working its way into a crystalline diamond.
They are cut and polished by the finest experts in the industry into gorgeous gems. Finally, the diamond is graded and given a tested certificate from a reputed, independent laboratory, and the total evaluation will be incorporated into your complimentary evaluation from Garner Wallace Fine Timepieces and Jewelry.
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Another advantage to lab-created diamonds is that you don't have to hunt diamonds in the natural world. Diamonds are naturally found beneath the Earth 's surface, which presents a safety hazard to the workers engaged in this search. Lab-grown diamonds are designed to produce conflict-free gems.
Additionally, choosing a mined diamond is environmentally sound. Hunting for diamonds necessitates stripping out huge amounts of soil and wreaking havoc on ecosystems. A diamond originating in a laboratory guarantees that your diamond won't be part of that sort of cycle.
Lab-created diamonds' primary benefit is their relatively low cost than their natural counterparts. They're more affordable for buyers, giving them an opportunity to own a gemstone that looks, feels, and has the same elements as a real one. Nevertheless, there is a drawback to that price tag: laboratory-grown diamonds will not retain their value over time, as they're flooding the market. Natural gemstones may cost a slightly higher price, but they'll hold their value, and may even appreciate in value over time.
For some, these stones, although popular as a natural diamond alternative, are still not as revered as the real stones that come complete with inclusions. The continued love for real gemstones is buried in history and gem tradition, and for many, lab-created stones are just not the same as natural diamonds, but for others, lab diamonds are an optimistic symbol of the future.
Lab-Created Versus Simulated
Lab-grown stones also known as lab-created or artificial diamonds, by definition, are stones that not only look like the actual thing but are produced with the same mineral composition as natural ones. To create these in-lab gems, scientists study the chemical composition and natural formation process of natural gems. As they find in nature, they then create in the lab materials with the same properties as natural ones. There is one difference, though. Rocks from manmade sources may not have voids or other flaws in place.
If you request a laboratory-grown diamond, the gem described above is what you will receive. It's of equal chemical makeup to a natural diamond, so it's of the same hardness and has comparable characteristics. The only difference is that it was created above ground by scientists as opposed to below ground by pressure.
In researching lab diamonds, you may come across the term simulated . Simulated stones are also laboratory-made, but are a different composition than their classic counterparts. They are not identified as lab-created because they're made in a different process and have a different composition than their natural counterparts. These imitation stones are simply a mirage made to look exactly like diamonds, but are not structurally the same. They have no similar density and often do not feel the same to touch. Cubic zirconia, which imitates the look of a diamond, is one frequently simulated gemstone.
Frequently Asked Questions About Lab Diamonds
Can a Jeweler tell if a diamond is lab grown?
Yes, a jeweler can definitely tell whether a diamond is lab grown or not. A lab-grown diamond will have a tiny chip of tell-tale black carbon embedded in the surface. A natural diamond will not have this mark. Additionally, a natural diamond may show some signs of inclusions, which would not be the case with a lab-created diamond.
Do Lab created diamonds get cloudy?
Like all diamonds, lab-grown diamonds can get cloudy. However, this typically occurs after about 10-15 years of regular wear (as opposed to up to 5 years for mined diamonds). This is because the growth process of a lab-grown diamond is not as long as the growth process of a mined diamond, so there is less time for the diamond to be exposed to environmental factors. Depending on how often the diamond is worn, an owner can expect the diamond to last a lifetime. It’s also important to note that just as a mined diamond can get cloudy, so can a lab-created diamond. If a diamond gets cloudy, it doesn’t mean it’s broken. It just means that a substance has developed on the surface of the stone.
Lab Grown Diamond vs Diamond Simulant: Which one to choose?
A synthetic diamond is a diamond that is manufactured in a laboratory. A diamond simulant is a substance that resembles a diamond in appearance but is not actually a diamond. Lab-grown diamonds are real diamonds and not simulants. Simulants are not diamonds and are not as valuable as natural diamonds. A lab-created diamond will be much less expensive than a natural diamond of the same carat size, cut, and clarity. Lab-grown diamonds are becoming increasingly popular.
Do Lab diamonds look different?
Yes, lab-grown diamonds have a different appearance than mined diamonds. They are more white, pure, and transparent than mined diamonds, which have impurities and color in them. Lab-grown diamonds have a different chemical make-up than mined diamonds, meaning that their appearance is different. While mined diamonds are carbon-based, lab-grown diamonds are made from boron and hydrogen. This means that they are whiter and more transparent than natural diamonds.
Are lab diamonds GIA certified?
Yes, like all other diamonds, lab-created diamonds must be certified. They will come with a certification from a grading laboratory. This certification will let you know the carat weight, color, clarity, and authenticity of the diamond. GIA is the only organization that certifies lab diamonds. However, there are other independent grading labs that can also certify lab diamonds.
What is high-pressure high-temperature (HPHT)?
High-Pressure High-Temperature (HPHT) is a synthetic process used to create diamonds that is similar to the natural process that occurs underground. HPHT is used to create red diamonds and blue diamonds. It’s also used as a method of cleaning natural diamonds that have impurities in them. HPHT diamonds are made by putting a small amount of synthetic graphite into a tiny container with a bit of natural diamond. This creates an environment where diamonds can be created. As the graphite is slowly converted into diamond, it goes through a very high pressure and high temperature. The diamonds created from this process are lab-grown and not synthetic.
What is Chemical Vapor Decomposition?
Unlike natural diamonds, lab-created diamonds are not made from carbon. Instead, they’re made from boron and hydrogen, which are two non-metallic elements. To create these diamonds, chemical vapor decomposition is used. A chemical such as aluminum chloride or silicon is combined with hydrogen. The mixture is heated in a vacuum and a small amount of carbon is created. This carbon is then converted into a diamond by being put through a high pressure and temperature. The process of creating diamonds this way takes about 6 weeks. This is significantly shorter than the time it takes to create diamonds through HPHT. While this process is more expensive than HPHT, it’s also more environmentally friendly.
What are the humanitarian benefits of CVD diamonds?
When diamonds are designed through a chemical process, they’re lab-grown diamonds. A by-product of this process is hydrogen gas, which can be reused. This makes the process of creating diamonds through CVD more environmentally friendly than HPHT. The process of creating CVD diamonds requires very few materials. This makes it cheaper to operate than a traditional mining operation. CVD diamonds are found in a lab environment, which means that environmental and labor concerns are not as significant.
Are Lab grown Diamonds available in different colors?
Lab-grown diamonds are available in a wide variety of colors. The most common colors are blue, red, and green. Some diamonds are also yellow, black, or white. These diamonds are made through a chemical process that puts carbon and other elements in an enclosed environment. The diamonds are closely monitored throughout the process to adjust the amount of carbon being added to the diamonds, which determines their color. Unlike mined diamonds, which have a limited color range, lab-grown diamonds have a wide variety of colors. These colors include blue, green, yellow, black, and white. The colors of lab-grown diamonds are caused by the chemicals used to create them. Blue diamonds are designed with a chemical called cobalt. Red diamonds, with a chemical called vanadium. Green diamonds are created with a chemical called chromium. The added carbon is what determines the color of these diamonds. Different chemicals produce different colors. For example, adding chromium to carbon produces green diamonds, whereas adding vanadium to carbon produces red diamonds.