on orders over $199
On Orders Over $199
Having diamonds embedded in a blade's edge is like having a thousand tiny saw teeth there. Due to their great hardness, they keep their cutting edge for longer, making short work of even the hardest materials. Because their edge doesn't dull as quickly as those made from other materials, diamond blades last far longer. Since diamonds are so tough, they slice with less resistance than other materials. Concrete and stone can be cut with a diamond cutting blade because of the diamond's superior hardness. This not only lengthens the life of the blade but also makes cutting easier.
Diamond blades are renowned for their precision when cutting. In order to achieve clean cuts without shattering or breaking the material, diamonds are often employed. This is of paramount importance when working with fragile substances like glass and ceramics. Diamonds, being so incredibly tough, find many uses in the cutting industry. Diamond cutting blades can be used on a wide variety of materials, from wood and plastic to granite, concrete, and metals. Professionals who often deal with a wide range of materials will find this flexibility particularly valuable.
Because of their extreme hardness, diamond-studded blades have a long service life. They may carry on slicing even after being worn down by repeatedly chopping tough materials. As a result, diamond cutting blades outlast their non-diamond counterparts by a significant margin. The heat resistance of the blade is enhanced by the diamond's hardness. Diamond's cutting action and the blade's design (including the gullets and the metal core) allow for effective heat dissipation while cutting. This is crucial for preserving the edge and longevity of the blade.
Diamond blades dissipate heat from the cutting process exceptionally well because of their construction. The gullets on the blade are the spaces between the diamonds. They permit air circulation and the dissipation of heat. As the blade spins, air is drawn through the slots and away from the cutting edge, where the heat is being generated. The central metal core of the blade is heat resistant. It does its job by removing heat from the cutting edge, where it would otherwise accelerate wear.
Too much heat can cause the blade to warp or bend, reducing its cutting efficiency and shortening its useful life. Diamond cutting blades are resistant to warping because they distribute heat so well. Too much heat could damage the material being cut. Too much heat, for instance when sawing through plastic or acrylic, could result in a sloppy cut. The temperature regulation properties of diamond blades reduce this worry. When cutting ceramics, concrete, or any other tough material, a diamond blade's heat management capabilities are crucial for ensuring a clean, precise, and safe cut.
The increased likelihood of blade failure caused by overheating makes overheated blades a potential safety issue. Because of their ability to dissipate heat more efficiently than other blade materials, diamond blades make cutting much less dangerous. The diamond blade's longevity is increased, and cutting safety is guaranteed because less heat is generated during use. Longer service life from blades that don't overheat is a win for everyone.