If you love the sparkle and beauty of diamonds but have ethical concerns, man made diamonds Auckland offer an elegant solution. Not only are they less costly but they come with guarantees for ethical sourcing as well.
Moissanite is another gemstone option that resembles diamond, yet trained gemmologists can differentiate the two by their distinct crystal structures and inclusions.
Moissanite is a stunning gemstone that rivals lab diamonds Melbourne in terms of clarity and brilliance. While originally found within meteorite fragments, today it can be produced in labs.
Moissanite offer an ethical alternative to natural diamonds that are harvested in war zones and support violence, poverty and unethical mining practices; instead they’re grown safely under fair conditions in laboratories with lower carbon emissions than their traditional counterparts.
Moissanite, made of silicon carbide, shares many of the same physical and chemical properties with diamond. Moissanite also reflects light differently than diamond, giving it its beautiful sparkle. Furthermore, due to being harder than rubies and sapphires and resisting chipping more readily than their counterparts more easily; its durability makes it a suitable option for daily wear-and-tear situations as well as those who have concerns over where their jewellery comes from. It makes an excellent alternative choice when considering real diamond jewellery without giving real diamonds any consideration!
Lab diamonds are created by simulating the extreme temperatures and pressures found within nature to form natural diamonds, while providing shoppers with an ethical option when it comes to mining natural diamonds. Lab diamonds offer all of the same optical and physical properties of natural diamonds at significantly less of a cost and offer shoppers more of an ethical choice in mining natural diamonds.
General Electric produced the first lab-created diamonds in the 1950’s using high pressure and heat to create lab diamonds, while today they’re grown using Chemical Vapor Deposition (CVD). Both methods produce gem-quality synthetic diamonds which appear identical to natural ones to the naked eye but their differences can only be revealed with special equipment.
Some consumers choose lab-created diamonds because their prices are approximately 30-50% less than comparable natural mined stones; others prefer them due to ethical and environmental considerations; others still find buying lab-created stones an affordable and eco-friendly way of commemorating happy events such as engagements, weddings and anniversaries.
Diamond simulants are man-made stones designed to resemble real diamonds and used in jewellery such as rings and earrings. Diamond simulants offer an affordable alternative to real diamonds.
Solderless diamonds are also more eco-friendly, as they require far less energy to power the machinery that extracts them.
Moissanite, which has quickly become an extremely popular diamond alternative, can be found naturally but only in very limited amounts – most of the Moissanite used today in engagement rings and wedding bands is lab grown.
No matter their popularity, it’s essential that consumers understand the difference between lab-created diamonds and simulated diamonds. Although they appear similar, their chemical makeups vary considerably and often lead to consumer confusion. While lab diamonds are technically actual diamonds while simulated ones aren’t; for more details about how lab and simulated diamonds differ click here.
An unconventional spin on an age-old proverb: diamonds remain a girl’s best friend, but now they can also be lab grown! Lab grown diamonds provide an ethically-sourced gemstone solution with more affordability.
Lab-grown diamonds are chemically, physically and optically identical to natural ones in every way imaginable. Crafted with carbon – the same element found in natural diamonds – lab-grown gems have the same Mohs hardness scale rating and Mohs hardness scale value; furthermore they’re significantly cheaper.
Manufacturers begin the production of lab-grown diamonds by starting with a seed crystal or nucleus cut from real diamond, known as a diamond nucleus. Once placed into an environment similar to what would occur naturally during diamond formation such as high pressure and temperatures, two methods for creating lab-grown gems include CVD and HPHT synthesis; both of these processes offer greater efficiency over traditional mining and can create higher quality gems.