A carbide inverted cone burr features a reverse-tapered cutting profile that widens toward the tip, making it ideal for chamfering, countersinking, deburring, and creating undercuts or angled grooves. Its unique shape allows precise control when working on internal edges, removing sharp corners, or shaping recessed areas that standard cone burrs can’t effectively reach. Manufactured from high-quality tungsten carbide, an inverted cone burr delivers excellent hardness, wear resistance, and heat tolerance, ensuring clean, accurate cutting on metals, stainless steel, hardened steel, cast iron, stone, wood, plastics, and more. It is commonly used in fabrication, engineering, automotive work, machining, and detailed finishing applications where controlled angled shaping and internal chamfering are required.
What are carbide burrs?
Carbide burrs, also known as rotary burrs, are a small cutting tool used to cut, grind or smooth metal. They are used extensively in workshops throughout the world. The carbide burr is characterised by a cylindrical shank with a cutting head. There are numerous head shapes and sizes designed for different applications. The head has many small cutting teeth which gives the burr a smooth finishing action. The teeth pattern is called the cut or fluting pattern. Different cuts are suited to different materials or applications.
What can carbide burrs be used on?
Carbide burrs are predominately used on metals, but are able to be used on all sorts of materials. Metals such as steel, carbon steel, cast steel, stainless steel, aluminium, brass, copper, zinc, bronze, titanium, nickel, cobalt, cast iron, gold and silver can be cut using carbide burrs. The softer metals use a different cut (head pattern) on the burr. This cut is usually referred to as non-ferrous or aluminium cut. Soft alloys include aluminium, brass, copper, zinc and gold. Other industries use burrs on materials such as plastics, wood, teeth, fibreglass and acrylic.
What are carbide burrs made of?
The two main material types of burrs are Tungsten Carbide and HSS (High Speed Steel) . Carbide is harder than HSS, and is the preferred choice in many industries because they last longer. They also handle higher temperatures than HSS allowing faster metal cutting. HSS is not suited to hard alloys but is easier to sharpen than carbide. Less common materials include tungsten vanadium and titanium-nitride coated burrs.
What is a carbide burr shank?
The shank is the shaft of the carbide burr. When referring to the shank size as 1/4″ or 6mm, this is the diameter of the shank. It is important to match the shank size with the tool you intend to use. The engineering standard shank size in Australia for carbide burrs is a 1/4″ shank. In the dental industry it is smaller. Long shank carbide burrs refer to extra long shafts. The standard length of an industrial burr is around 50mm.
Who uses carbide burrs?
There are many industries and individuals who use carbide burrs. Traditionally they are used in welding, foundries, engineering, and dentistry.
What are the two meanings for the word burr?
One meaning is the small cutting tool and the other refers to the sharp imperfections created by the machining process. Machinists need to deburr machined parts in order to remove these problematic burrs.
What is deburring?
A common problem in manufacturing is the removal of machining burrs. These burrs are imperfections caused by the machining process and cost the industry billions of dollars every year. There are four main types of burrs. The poison burr, The roll-over burr, The tear burr and the cut-off burr. These burrs can jam precision assemblies, impede the part function and injure staff. Deburring is the removal of burrs from parts. Machinists have a number of tools other than carbide burrs to remove machining burrs such as knives, files, reamers, and chamfering tools.