Industrial Low Carbon Steel Plate

Industrial Low Carbon Steel Plate

Industrial low carbon steel plate is a common metal product used in various industries. The specific characteristics and properties of this type of metal differentiate it from high carbon steel.

Leeco Steel carries an extensive inventory of both low and high carbon steel in all grades at our 11 strategically-located distribution centers. We deliver these products processed and packaged to your exact specifications.


Durability is a key property for steel plate. Industrial low carbon steel plate is highly durable and can withstand high loads, making it suitable for construction materials and other heavy applications. This type of steel is also resistant to corrosion, and can be used in marine applications and in oil and gas pipelines.

However, while it’s a good choice for most uses, low carbon steels are not typically suitable for use with Industrial low carbon steel plate chemical streams that contain, or could potentially be contaminated by, water. For this reason, it’s a good idea to consult a table of corrosion resistances or conduct corrosion testing before selecting the appropriate material for your specific application.

The carbon content of the steel is very important, and can determine its corrosive properties. It is generally considered to be lower than 0.10% C for flat-rolled products, and up to 0.4% C for rolled structural plates and sections. When using these types of steel, it is also recommended to add a small amount of manganese to improve the toughness.

Carbon-free steel is a necessary requirement for global climate and economic competitiveness, but there is still a lot of work to do to achieve this goal. Achieving this goal requires a mix of public and private investments. This is why it’s crucial for nations to support research and development efforts on a range of low-carbon technologies, from direct ironmaking to biomass coke.

Corrosion Resistance

While mild steel is primarily composed of iron, it also contains small amounts of other elements like manganese, silicon, sulfur and phosphorus. All of these elements have a different impact on the performance of this material. For example, manganese contributes to the overall strength and hardness of carbon steel. Silicon, on the other hand, impacts the ductility of this material. In addition, the presence of non-metallic impurities can affect magnetic properties such as permeability and coercive force.

Carbon steel plates can be separated into three categories based on their carbon content: low, medium and high. Low carbon steel is softer and easier to bend, while high carbon steel is stiffer and harder to shape. In between these two types is medium carbon steel, which can be made ductile by using heat treatments such as quenching and tempering.

Industrial low carbon steel plate is used for a variety of applications because of its durability and versatility. This plate is typically used for structural shapes such as building construction, transmission towers and bridges. In addition, this type of metal can be fabricated into mechanical tubing and pipes for fluid transport. Xometry carries many standard sizes of carbon steel plate in cold-rolled and hot-rolled options, both of which can be customized to your exact specifications. Contact a representative to learn more about how our manufacturing capabilities can make your project successful.


Steel is one of the most versatile materials available for construction and manufacturing. Its strength and durability make it a popular choice for a variety of projects, including building frames, car parts, and machinery components. However, it can be difficult to weld. This is because the hardness of the steel depends mainly on its carbon content. Other alloying elements can also affect the hardness of a steel, such as manganese, chromium, nickel, and vanadium.

In order to weld low carbon steel, it is important to use a welding process that does not require high temperatures. It is also important to choose a filler material that does not contain much diffusible hydrogen, as this can cause cracking. Several external treatment methods can help to improve weldability in low-carbon steels, such as the addition of modifiers to the weld pool molten metal or preheating the pieces before welding.

There are a few different types of low-carbon steel plates, including drawing steel (DS) and extra-deep drawing steel (EDDS). Both of these types have a low carbon content, but they also include various other alloying elements to increase their ductility. Unlike rolled structural steels, DS and EDDS can be easily drawn into thinner sheets. Using these steels in applications that demand both strength and ductility is ideal, as they can be welded without compromising their stability or durability.


There are a number of factors that impact the price of Industrial low carbon steel plate. Most of these factors involve the cost and availability of raw materials used to produce the material. When the price of raw materials like iron ore, pig iron or scrap metal increases, so does the price to produce steel. Steel producers will often pass these increased costs on to their customers through a rise in the steel plate’s price.

Other factors that can influence the price of steel plate include government legislation and bills. For instance, if the federal or state government passes legislation that provides large sums of money to sectors that rely on steel products, such as manufacturing, road construction and wind and solar energy, then demand for steel products will increase, driving prices higher.

Leeco stocks various grades of carbon steel plate, from low (also known as mild) to medium and high carbon content plates. Low carbon steels are used in a range of applications due to their softness and affordability. They also have a high ductility and can be formed into complex shapes without losing strength. Medium carbon steels are a carbon steel coil manufacturers good choice for applications that require both durability and formability. They offer greater strength and hardness than low carbon steels, but are not as brittle as high carbon steels.