Free cutting structural steel Y35

Y35 Trade Cutting Structural Steel

Trade cutting structural steel is a type of work that typically involves using a high-power, precise cutting tool to form a shape. Depending on the specific material, trade-cutting may include the plasma, laser and oxy-fuel forms of cutting. Y35, which is a trade cutting structural steel, is widely used for its great strength-to-weight ratio and its offerings of hardenability, formability and weldability.

Y35 is a low-alloy, high-strength steel that is well-suited for trade-cutting process. It is primarily made up of levels of carbon and manganese along with other elements, such as sulfur and phosphorus. The alloy’s carbon content ranges from 0.32 percent to 0.37 percent, while it encompasses between 0.60 percent and 1.20 percent of manganese. Other available percentages of the alloy include 0.10 percent of sulfur, 0.045 percent of phosphorus and 0.15 percent of silicon.

This steel offers features such as excellent weldability, high-yield strengths, good machinability and formability and preferential hardenability. The steel has a good surface hardness even prior to hardening and its optimal cutting speed is obtainable with a sharp tool. Y35 is often used in the production of industrial components, bridges, automotive parts and structural shapes.

Y35 offers both mechanical properties and its resulting cutting process. It has a very good yield strength at 400 Megapascals and its tensile strength ranges from 590 to 735 Megapascals, making it extremely sturdy and resistant to pressure. Further, with its elongation of 20 to 18 percent, Y35 structural steel displays a good formability and tolerates cost-effectiveness.

The steel’s machinability rating is around 55, with a cutting speed ranging from 30 to 40 meters per minute, showing optimal cutting wear with the proper tools. The tool should also have good sharpness and clarity in order to keep a clean and precise cut. In addition to general trade-cutting processes, Y35 also performs well with oxy-fuel flame and laser cutting.

It can be safely used in temperatures as low as –196 degrees Celsius and is highly resistant to corrosion and oxidation. Y35 steel is also very customizable, allowing for it to be formed into various shapes and sizes, making it a popular choice among manufacturers.

Y35 trade-cutting structural steel provides a variety of features, such as high-yield strength and machinability, making it one of the most sought after materials for many manufacturing needs. Its formability and cost-efficiency also make it ideal for many industrial applications. With its versatile properties, Y35 is ideal for trade-cutting processes, such as flame and laser cutting. This steel also has great durability in extreme temperatures as well as resistance to corrosion and oxidation.

Solid carbide end mills are cutting tools used for profiling, slotting and machining in various materials such as aluminum, plastic, wood and stainless steel. The cutting blades of these tools are often coated with titanium, cobalt, or nickle to ensure better performance and extended tool life.

Y35 is a trade name given to a structure steel alloy of carbon and iron. It is ideal for machining due to its relatively low carbon content. This specific steel alloy has a machinability rating of 50, making it easier to machine than higher-carbon steels. The relatively low carbon content also helps to reduce wear on the machining tooling.

When using a solid carbide end mill to profile, slot or machine Y35 steel, a lower cutting speed is preferable than when machining other materials. The lower cutting speed helps to reduce any potential heat buildup that can affect the tooling, or possibly cause warping of the Y35 part. A good cutting speed for Y35 steel is 500-400 RPM.

When machining Y35 steel with a solid carbide end mill, it is important to regularly check for any built up metal chips around the cutting edge. This is due to the increased wear on the cutting edge caused by the relatively low carbon content of Y35 steel. Regularly checking and removing any metal chip buildup on the tooling can help to extend the life of the end mill and ensure a visually pleasing surface finish of the part.

In general, Y35 steel is an excellent choice for machining due to its low carbon content. Solid carbide end mills are preferred for machining Y35 steel due to their tough and wear resistant cutting blades, allowing for a long tool life, and the ability to profile, slot and machine with precision. If a lower cutting speed is chosen, metal chip buildup is regularly checked for and removed around the cutting edge and cooler lubricants are used, the life of the solid carbide end mill can be extended and good quality parts can be produced.