Diamonds will burn at about 1562°F (850°C). House fires and jewelers' torches can reach that temperature. A house fire caused the white, cloudy appearance of this diamond (left). The stone was recut to remove the burned area, reducing the diamond's size, but leaving no sign that it was ever damaged (right).
If you heat the diamond in the open air, it will begin to melt and burn at around 700 degrees Celsius (1,292 degrees Fahrenheit). Burning a diamond without oxygen, however, will make it change into graphite (a crystalline form of carbon) before transforming into a fluid.
Although diamond requires a higher temperature to burn, it does indeed burn via normal carbon combustion. You can even burn diamond in a regular flame if you are patient and conditions are right. To accelerate the burning of diamond, you can give it more heat and more oxygen.
Diamonds don't shatter when exposed to high heats.
As a result, diamonds are incredibly durable and aren't susceptible to damage from high heat. Fake diamonds, on the other hand, cannot handle heat nearly as well because they are made of weaker materials.
Many begin as gray, heavily included and fractured diamonds that are subjected to high-temperature/low-pressure treatment, which graphitizes the fractures, turning them black. Artificial irradiation of off-color diamonds can also produce a green so dark the diamond appears black.
Diamonds are exceptionally delicate, and thus, they require the utmost care. Harsh chemicals like acetone, chlorine, bleach and other abrasive substances like baking powder and toothpaste will damage your diamond beyond repair.
Researchers at Cornell University for the first time have documented the melting of diamond, the hardest material known to man. It occurred by accident when researchers were performing studies of graphite under temperatures and pressures that mimicked those in the earth's interior.
Diamonds are designated to burn at about 900 degrees Celsius when there is adequate oxygen. However, melting diamonds requires a minimum of 4500 degrees Celsius at a pressure of 100,000 bar.
Even without pure oxygen, diamonds can be damaged by flame, according to the Gemological Institute of America (GIA). Typically, a diamond caught in a house fire or by an overzealous jeweler's torch will not go up in smoke, but instead will combust on the surface enough to look cloudy and white.
Or do you only see a white light? Fake diamonds do not reflect spectral rays from the beam of the flashlight. This is because a diamond's refractive index is high; it makes the white light entering the diamond split into multiple colors before it exits on the other side of the stone.
Deep boiling or deep cooking
These tiny dots are trapped in the diamond when it is formed. Since acid doesn't corrode the diamond itself, but only the dirt that has entered the stone, the process allows dirt to be removed so the polished diamond looks better. Deep boiling is a long process that lasts 10-12 hours.
If you're serious about finding out whether your diamond is real or fake, you can put the stone through a fire test. Use a lighter to light the stone for approximately 30 seconds before dropping it in cold water. If it's a real diamond, the stone will remain unharmed, but if it's fake it will shatter to pieces.
Using fire to test your diamond
Another method to determine if your diamond is real or fake is to use a lighter to light the stone for about 30 to 40 seconds before dropping it in cold water. If it's a fake diamond, it will shatter to pieces but a real diamond won't have a reaction to it.
Diamonds only exist in small quantities on earth and take billions of years to form. At the present rate of mining, this resource will eventually run out.
Diamonds will burn at about 1562°F (850°C). House fires and jewelers' torches can reach that temperature. A house fire caused the white, cloudy appearance of this diamond (left). The stone was recut to remove the burned area, reducing the diamond's size, but leaving no sign that it was ever damaged (right).
Worldwide reserves are estimated to be some 1.2 billion carats. Russia has the largest reserves, estimated at some 650 million carats.
While there may not be many naturally-occurring materials out there that are stronger than diamonds, certain man-made metals like tungsten and steel have a higher tensile strength. That means a direct hit with an ordinary hammer can absolutely break a diamond.
Moissanite: The Second Hardest Mineral in Nature after Diamond. The colors seen in moissanite from the Mount Carmel area of northern Israel range from dark blue to light green. photo by Aurélien Delaunay. Moissanite is the name given to naturally occurring silicon carbide and to its various crystalline polymorphs.
Chlorine bleach or abrasives (such as household cleansers or toothpaste) should never be used when cleaning diamond jewelry. Chemicals like chlorine can damage some of the metals used to alloy gold for diamond settings and abrasives can scratch gold and other metals.
Water. Other than the high salt content, water won't damage your jewelry.
Diamonds are dense and will sink quickly, while certain imitations will sink more slowly. If your gem doesn't immediately sink to the bottom, it's likely a glass or quartz imitation. However, other imitations, including cubic zirconia, will also sink quickly.
What is diamond fluorescence? Fluorescence is the glow you sometimes see when an object emits visible light. Some diamonds fluoresce when they are exposed to long-wave ultraviolet (UV) rays from sources like the sun. This can cause them to emit a bluish light or more rarely, a yellow or orangy light.