RCMT standard carbide (with coating) turning inserts are with strong cutting edges, which provide best reliability and long endurance. R - Round shape of turning insert C - Insert with clearance under main cutting edge (7°). M - Tolerances and dimensions of carbide turning insert. T - Hole through insert and single sided chip breaker. The R-type inserts have extra-strong cutting edge to meet the requirements for machining of curved surface of die.Industry Applications of Carbide Inserts Carbide inserts are in use since the 1920s. They are one of the most frequently used in the metal cutting world because they are not only efficient but also cost-effective. As discussed above, they come in various grade types and are highly durable. Also, they produce an excellent quality surface finish when used in cutting materials. There are a number of industries around the world in which carbide inserts are used. Here are a few applications listed. Surgical tools Carbide inserts are commonly used in the medical field. Physicians rely on durable and accurate tools for various medical procedures. The tools’ base is composed of titanium or stainless steel, and the tip is made up of tungsten carbide. The doctors rely on the precision of these inserts for the treatments and procedures. Hard turning milling Another application of carbide inserts is in the hard turning and milling. It is a flawless process for ceramics. A machining process makes a single carbide insert be in the cut for more extended periods. So, it is an excellent tool for maintaining high temperatures and making ceramic inserts perform optimally. Jewelry making Carbide inserts have various applications in the jewelry-making industry as well. They are used to shape jewelry items while making them. Tungsten material is just behind the diamond in terms of hardness, so highly use-able in shaping wedding rings and other jewelry pieces. Nuclear science industry Tungsten carbide inserts are also used in the nuclear science industry as effective neutron reflectors. It was initially used during investigations in nuclear chain reactions, i.e., for weapon protection. Automotive industry They are used to remove more material during the machining process in the automotive industry. They are heat resistant, so you do not have to worry about the high temperatures. They also improve precision and control, hence producing more precise automotive parts. They also help enhance finishing and reduce waste, making them cost-effective. Conclusion To accurately and profitably machine the metal, you must select the right insert for your cutting. Properties like hardness, abrasion resistance, good strength and toughness, heat resistance, and corrosion resistance make carbide inserts useful for various industries nowadays. They are suitable for cutting steels or machining with low cutting loads to guarantee long tool life and accurate machining.Recommended for all purposes and applications, especially in milling. It mainly focuses on face milling and cavity profile milling of steel, alloy steel, stainless steel and cast iron.