Synthetic corundum is a term used to describe gemstones that are artificially created in a lab. They are often referred to as “lab-created” or “cultured” gemstones. While the value of natural gemstones has long been debated, the value of synthetic corundum is often difficult to determine. In this blog post, we’ll explore the loaded concept of value when it comes to synthetic corundum.
Introduction: What Are Synthetic Corundum And Their Value?
Synthetic corundum is a type of artificial gemstone that is created in laboratories to replicate the look and feel of a natural stone. Synthetic corundum can be composed of many different stones, such as ruby, sapphire, and topaz London Blue. Its creation is a complex process that involves chemical treatments and an array of temperature and pressure levels. Though some people may dismiss synthetic corundum as having no value, this couldn’t be further from the truth. While it is not as rare as natural stones, synthetic corundum has still become popular due to its affordability, availability, and brilliance. In addition, synthetic corundum is actually becoming increasingly valuable, as the technology and techniques used to create them become more sophisticated.
A Bit Of History: From The First Synthesis In 1837 To Modern Times
Synthetic corundum has come a long way since its first synthesis in 1837. The first recorded production of a synthetic gemstone was made by Auguste Verneuil in Paris, France in 1877. He created a red spinel, and later developed a method for creating artificial rubies, the most famous being the Verneuil process. This process, known as flame fusion, is still used to create many synthetic gemstones today.
The invention of synthetic corundum had a great impact on the gemstone industry as it allowed for the mass production of gemstones that were otherwise hard to find or too expensive. This also had an effect on certain gemstones, such as rubies, as they could now be produced at a much lower cost. This development was so successful that the term “created rubies” became synonymous with the Verneuil process.
In the late 1960s and early 1970s, the popularity of topaz increased due to its use in London Blue topaz rings. Due to its popularity, more colors of topaz were produced synthetically. Such as pink and yellow. The growth in popularity of these colored stones meant that a lot more of them were available on the market, allowing people to own them at a fraction of the price of naturally occurring stones.
Today, synthetic corundum is available in a variety of colors, shapes, and sizes. Synthetic stones are now widely used in jewelry, and their affordability makes them a popular choice for many consumers. Synthetic gemstones continue to grow in popularity, and their value continues to increase as more people become aware of them and appreciate their beauty.
Why Are Some People Drawn To Synthetics?
Synthetic corundum, also known as lab-created or man-made gems, have been around for over 180 years. But it is only in the past few decades that they have become popular among gemstone enthusiasts. Synthetic gems can be created in a laboratory with the same chemical and optical properties as natural gems. For example, synthetic blue sapphires often look identical to their natural counterparts. The most popular synthetic gems are ruby, sapphire, topaz, and spinel.
But why are some people drawn to synthetics? Many believe that synthetic gems offer greater value for money than natural gems. Synthetic stones are typically much less expensive than their natural counterparts and come in all the same colors and shapes. Synthetic corundum is particularly popular because of its affordability and its classic appearance. In particular, London Blue Topaz is a well-loved option due to its rich, deep blue color. Synthetic corundum offers a fantastic way to add a touch of elegance to any jewelry piece without breaking the bank.
How Are Synthetics Made?
The process of creating synthetic corundum, also known as man-made gems, is a complex and precise process. It involves the use of heat and pressure to combine elements like aluminum oxide and other additives to create these colorful stones. Synthetic corundum comes in a variety of colors including ruby, sapphire, and topaz. A popular variety of corundum is the London Blue Topaz.
The production of synthetics typically begins with the creation of an alumina-rich concentrate made up of a combination of aluminum oxide and other elements. This concentrate is then placed in a press and heated up to high temperatures. The heat and pressure force the elements to come together and form crystals that are then cut and polished into gemstones.
The color of the gemstone is often determined by different elements such as titanium, vanadium, chromium, or iron, which are added during the pressurization process. The resulting gemstones are known as synthetics since they are man-made rather than mined from the earth.
Synthetic corundum is often significantly cheaper than natural gems due to its affordability and lack of scarcity. In addition, synthetics are available in many more varieties and sizes than natural gems. However, when it comes to buying synthetic corundum, it is important to do your research to ensure that you are getting a quality product from a reputable source.
What Does The Future Hold For Synthetic Corundum?
The future of corundum is bright. With advances in technology, the quality of synthetic gems will continue to improve, making them more and more realistic-looking. Synthetic gems are becoming more affordable, as well, so they are becoming increasingly accessible to a wider range of customers. This is likely to increase the demand for synthetic gems.
In particular, corundum gems such as rubies, sapphires and topaz in London Blue are particularly popular and sought after by consumers. Synthetic sapphires, in particular, have become increasingly popular due to their affordability and stunning beauty. It’s likely that these stones will continue to be popular in the future. With new colors and varieties being developed to meet the demand of jewelry lovers.
