Polish tool steels are an important type of steel alloy used in the manufacturing of industrial tools and components that can withstand high levels of wear and tear. The addition of alloys such as chromium, vanadium, and molybdenum allows Polish tool steels to be hardened and tempered to a range of different levels of strength. These steel alloys are commonly used in the production of applications that feature high cutting and abrasion stability, such as saw blades, drill bits, milling cutters, and punches.
Polish tool steels are available in three main grades of stainless steel, with the most common being grade A2. This grade contains 1.38-1.45% carbon, up to 0.85% silicon, and 3.50%-4.50% manganese, with other minor elements such as molybdenum, chromium and vanadium being included. A2 Polish tool steels are highly corrosion resistant, with excellent strength at elevated temperatures.
Grade A2 stainless steel is tough and hard wearing, making it ideal for use in the production of components subject to high levels of friction. This type of steel is heat-treatable, featuring excellent machinability and the capability of being hardened and tempered to a range of different tensile strengths.
Grade D2 is a high-chrome, high-molybdenum tool steel that provides high wear-resistance and excellent corrosion-resistance. This type of steel also exhibits high toughness and machinability, and can be heat-treated to form a range of hardness levels.
The third most common grade of Polish tool steel is grade H13. This grade is designed to resist heat-treating, allowing for the homogeneous distribution of alloying elements. This makes it ideal for applications requiring tough, hard-wearing components.
Polish Tool Steels offer superior strength and wear-resistance for industrial tools and components, and are available in a range of grades designed to meet virtually any application requirement. With their long-lasting robustness and excellent corrosion resistance, Polish Tool Steels offer superior performance in a range of industrial applications.
