Cemented carbide inserts are made from tungsten carbide as the hard phase and cobalt as the binder phase, through high-pressure forming and high-temperature sintering. With high hardness, high temperature resistance, wear resistance and impact resistance, they have become the core consumables in the machining industry. As the mainstream type of CNC inserts, they are suitable for CNC lathes, machining centers and other equipment, enabling turning, milling, drilling and other processing operations, stably improving metal cutting efficiency and workpiece precision.
High-quality cemented carbide inserts combined with advanced coating technology can significantly reduce cutting friction and temperature, reduce chipping and built-up edge, and greatly extend tool service life. Whether processing aluminum alloy, steel, stainless steel, cast iron or alloy materials, coated cemented carbide inserts maintain stable cutting performance, adapting to complex working conditions such as continuous cutting and interrupted cutting.
As professional cutting tools, cemented carbide inserts come in complete specifications and models, meeting high-precision processing requirements in automotive manufacturing, mold processing, construction machinery, aerospace and other industries. Directly supplied by manufacturers, cemented carbide inserts offer both quality and cost-effectiveness, supporting non-standard customization to help enterprises reduce tool costs and improve production efficiency.
In modern intelligent manufacturing, cemented carbide inserts are key components to improve processing efficiency and ensure product quality. Choosing suitable CNC coated cemented carbide inserts can optimize cutting parameters, reduce tool change frequency, and help enterprises achieve efficient, stable and low-cost metal cutting processing.