Diamonds are a luxurious and often symbolic jewelry item. But where do they come from? In the past, diamonds were mined from the earth. But this process is becoming increasingly complex and expensive. So more people are considering lab grown diamonds as an alternative. Now lab grown diamonds are changing the jewelry industry.
Lab grown diamonds are changing the jewelry industry in a big way. These gems are created by growing small pieces of diamond microcrystals in a controlled environment. They offer several benefits that traditionally mined diamonds don’t.
For one, lab grown diamonds are cheaper than mined diamonds. Mined diamonds also have fewer negative environmental impacts. It’s due to their lack of mining infrastructure and associated CO2 emissions.
Additionally, lab grown diamonds last longer than regular diamonds – up to 100 times longer! This means you can wear them for an extended period without replacing them regularly. The best lab created diamonds have unique colors and shapes that look amazing and attractive to buy as jewelry. Most famous jewelry pieces can be partnered with lab grown diamonds. This includes engagement rings, tennis bracelets, diamond pendants, solitaire wedding rings, etc.
A few generations ago, manufacturing diamonds in a laboratory would have been unthinkable. They are much less to have them finished in a few weeks. However, it is exactly what has been accomplished at this point.
Now there’s a recent technological development. It allows jewels generated in laboratories to be more desirable and beautiful than ever. Lab grown stones are an excellent choice for engaged couples who wish to reduce their environmental impact.
Lab grown diamonds have the same:
- Chemical composition,
- Optical properties, and
- Brilliance as their natural diamond counterparts.
These gems are exceptionally eco-friendly because they don’t require mining.
Here, we will carry you through the bit-by-bit process of how lab grown diamonds are created. We’ll explain what materials are required and provide tips on how to get started if you’re interested in creating your own diamond lab.
The chamber is set at a temperature and pressure optimal for diamond growth. This process helps to develop the diamond into the perfect shape and size. Then beginning with methane gas (CH4); plasma is then formed by adding hydrogen (H).
In step two, a plasma ball of scorching gasses forms in the chamber. This ball is made up of extremely hot particles that are almost at the point of breaking down into component atoms. By creating this ball, we are creating conditions that allow the diamonds to form.
Then, a disc containing 15–30 diamond seeds (miniature natural diamonds) was placed into the microwave reactor. The diamond formation process starts with tiny carbon atoms surrounded by helium and other elements.
The hydrogen gas in the atmosphere helps to create these conditions, and it’s also what makes the diamonds sparkle. The heat from the plasma causes these tiny particles to break down into their component parts, which then leaves behind deposits of diamond on top of the substrate.
To produce lab grown diamonds, the temperature in the chamber needs to be raised to between 900 and 1200 degrees Celsius. This will help create an exceptional gemstone with a high level of purity.
After three to four weeks, the diamond will have grown one carbon atom at a time. The species consists of activated carbon and hydrogen affixes itself to the seed atom. This technique is repeated indefinitely for 21–28 days to faithfully reproduce the crystal structure of the diamond seed crystal in three dimensions.
The seed development is carefully monitored by technicians, who extract it at the optimal time to bring out its full potential. iPad alerts tell the technicians that the growing diamonds are ready to be pulled. The fifteen to thirty gems that have a rectangular shape are extracted from the reactor and delivered to a gemologist for cutting.
After being extracted from the machine, the raw diamonds in the form of cubes are transferred to be cut and polished. After a gemologist’s cutter has expertly shaped the stone, it is put in a ring mounting.
Suppose you are interested in purchasing a diamond produced in a laboratory. In that case, you may be debating between buying an HPHT diamond or a CVD diamond. These technologies are exciting, and each has many advantages and disadvantages.
You are free from the burden of concern regarding the method utilized in producing your lab grown diamond. The brilliance of a lab grown diamond originates, just as it does with natural diamonds, in the diamond’s unique physical features and not in the process used to create it.
The same criteria, known as the “4 Cs,” are used to evaluate and value diamonds created in laboratories rather than mined from the earth. The most essential thing is the ultimate outcome, even though the kinds of inclusions and color tones will vary slightly depending on the type of lab grown diamond you get.
Diamonds grown in a laboratory, produced by high-pressure, high-temperature (HPHT) or chemical vapor deposition (CVD), are of a much higher quality and cost less than any diamonds mined from the earth. Not to mention that they are the alternative with the highest ethical standards and do not involve conflicts.
Buying a lab grown diamond may sound like an expensive luxury. Still, you have all the information about how this product is made.
Consider their exceptional beauty and rarity if you’re still not convinced that lab grown diamonds are worth the money and time. Since they don’t exist in nature, these stones are 100% unique and absolutely incomparable to those mined by a man with centuries of experience.
In addition, They’re created using new technology that protects resources while allowing for more sustainable production methods. So it will be easier to convince your loved one to switch from traditional diamonds to these honest ones.