High Carbon Steel Plate

Whether it’s in plain sight (those metal clips on your pant hanger) or hidden behind the refrigerator door, high carbon steel plate is all around us. It’s even in our cars and military vehicles.

This iron/carbon alloy is available in several types and grades. Depending on the application, you may want to choose a particular grade that meets specific standards.

Strength

High carbon steel plates have a higher strength than other types of flat-rolled metals. They are also very durable, making them a common construction material that can support large structures. They are able to withstand heavy pressure, and they are also resistant to corrosion and rusting.

They are available in a range of grades and specifications depending on their strength, formability, ability to withstand subzero temperatures and weldability. The most common carbon steel high carbon steel plate plate grades stocked by suppliers like Leeco include ASTM A283, A36 and A572.

In the automotive industry, you will find that many components are made from carbon steel. This includes the wheels of vehicles, as well as the frames and suspension systems. They also play a critical role in constructing railroad tracks and subways. Moreover, they can be found in the manufacturing of heavy machinery and transportation equipment such as trucks, tractors and buses.

They are a necessary component for the fabrication of mining equipment such as bulldozers and excavators. Likewise, they are used to construct military bases and barracks as well as tanks and armored vehicles. These defense and aerospace systems require exceptional strength and durability to perform under demanding operational conditions, so using the right materials is crucial. In addition to their incredible strength and durability, carbon steels are also cost-effective and sustainable.

Toughness

High carbon steel plate is known for its toughness, especially when it has been hardened and tempered. This type of steel is commonly used to make tools, such as hammers or crowbars. It also has excellent wear resistance, making it ideal for use in applications that require extra durability and strength.

The toughness of high carbon steel is a result of its microstructure, which is made up of a fine mixture of ferrite and iron carbide, known as pearlite. This gives the steel its characteristic wormy texture, which makes it very hard. However, it also makes it brittle and much less ductile than mild steel.

In order to achieve high toughness, the steel must be subjected to a combination of severe stresses and rapid temperature changes. This can be achieved through drop ball testing, which involves dropping a weight onto the steel plate. The stress induced by the impact causes phase transformation, uniform dislocation distribution, grain refinement, and recrystallization.

Three D Metals provides high carbon steel plate in a range of sizes, thicknesses, and finishes to meet the requirements of our customers. From industrial machinery to transportation equipment, we offer fast delivery, free CADs, and knowledgeable support. Learn more about our full line of carbon steel products and contact us to discuss your specific needs. We are always happy to advise you on the best solutions for your unique applications.

Corrosion Resistance

When it comes to the most versatile and stainless steel plate manufacturers durable types of steel and metal available today, carbon plate falls near the top of the list. It has a broad range of uses across multiple industries, from building and manufacturing structures to creating safe storage containers for dangerous materials.

Carbon steel plate’s tensile strength and resistance to corrosion make it an ideal choice for construction projects that require the transport of fluids or gases. These plates are used to create pipelines that deliver fuel, oil, gas or other substances across long distances. Their resiliency helps ensure that the transportation of these materials is completed safely and securely.

While carbon content never goes above 2.0 percent, high-carbon steel still has an impressive amount of versatility. By incorporating additional alloying elements like nickel, chromium and molybdenum into the plate’s composition, carbon steel can be made to possess extremely hardness and resistance to wear. This allows it to be used for tools and dies in the manufacturing industry as well as various washers and fasteners.

Leeco stocks an extensive inventory of mild, low and medium-carbon steel plate grades at our 11 strategically-located distribution centers. These locations allow us to provide fast dispatch and control freight costs for our customers. Additionally, our ISO-certifed quality management system ensures that the plates we sell will meet or exceed your specified requirements. For more information about our products or to speak with a representative about your specific needs, contact Leeco Steel today.

Weldability

Weldability of carbon steels depends on their chemical composition, specifically the amount of carbon. Alloying elements such as manganese, chromium, silicon and vanadium can also impact the weldability of these metals.

When compared to low-carbon or mild steel, high-carbon steel has lower weldability and is more prone to cracking during welding. However, it still has excellent machinability and can be used for structural applications that require extra strength and durability.

High-carbon steel can be found in a variety of products, from pant hangers to car parts. When you reach into the back of your car to check the brakes, there’s a chance a small metal clip holds the backup sensor in place — that’s a high-carbon steel part. Additionally, these plates can be used for springs, coils and cutting tools. During the COVID-19 pandemic, a Three D Metals customer formed these metal clips to replace plastic ones in medical machines that tested for the virus.

Like most iron alloys, high-carbon steel is prone to rusting. However, it can be prevented by keeping the plate clean and applying protective oils or paint. Also, it is important to ensure that the proper heating process and post-weld heat treatment are utilized when working with these types of metals. This will help reduce the risk of cracking during welding. These practices are especially crucial when welding high-carbon or sulfur content steels.