NM400 steel density kg/m3
on NM400 steel Introduction NM400 steel is hot rolled structural steel with a nominal yield strength of 400 MPa.NM400 steel belongs to the abrasion resistance group of steels. It has the highest level of wear resistance among the group. It is typically used in applications where abrasion resistance is more important than strength, such as in parts that are subject to wear and tear.
NM400 steel has high levels of strength, ductility and weldability. This makes it an ideal material for use in construction and engineering applications, as well as in excavators, mining applications, crushers, road construction and other applications where abrasion resistance is a factor.
NM400 steel has a high degree of formability, making it suitable for a variety of fabrication processes. It is typically hot rolled and treated with a hot-coating process. This process increases its abrasion resistance and corrosion resistance. The process also increases its surface hardness, making it more resistant to scratching and wear.
NM400 steel has a high hardness, making it resistant to impact and wear. Its high ductility allows it to be machined, drilled, punched and formed easily. This makes it suitable for use in parts that require precise dimensions and intricate designs.
NM400 steel also has a high resistance to heat and is suitable for use in applications exposed to high temperatures. It has an excellent weldability and can be welded with most types of welding processes.
The density of NM400 steel is 700 kg/m3, which is slightly higher than that of carbon steels. This higher density gives it greater strength, making it ideal for applications that require extra strength.
In conclusion, NM400 steel is an excellent choice for applications where abrasion resistance and strength are required. Its high formability, weldability and ductility make it suitable for a variety of fabrication processes. Its high heat resistance, high hardness and high density make it suitable for use in parts exposed to high temperatures and under high stress.