The more carbon contained in the steel, the stronger the carbon when heated. This makes the steel less ductile. The difference between steel and carbon steel is the carbon content of the material. The carbon content in the mild steel ranges from 0.16% to 0.3%. Carbon steel pipe is a steel alloy with carbon content ranging from 0.12% to 2%. The percentage of alloy in carbon steel affects weldability, hardening process and corrosion resistance.steel tubing manufacturer
Carbon steel pipes are widely used in many industries due to the following main reasons:
Carbon steel pipes are safe and durable. Carbon steel pipes have durability and can be improved by adding a coating that prevents rust. This will extend the life of the pipe. The pipe is highly resistant to shock and vibration and is therefore ideal for transportation. In addition to its elasticity, this strength can be safely used under high pressure conditions. The steel pipe will not bend or break.
Carbon steel pipes are made of environmentally friendly materials. Carbon steel pipes can be recycled. More steel is recycled annually than paper, aluminum or plastic.
Carbon steel pipes are cost effective. Carbon steel pipes have a long history as a preferred material because of their strength and low cost.
Carbon steel pipes are versatile. Carbon steel pipes can be made in multiple sizes, curved into curves and suitable for any location where they are needed. Joints, valves and other carbon steel pipe fittings are widely available. Many suppliers and technicians often use carbon steel pipes. Connection techniques, such as flanged, threaded, welded and grooved, enable faster, lower cost installations because it reduces joints.
Carbon steel pipe is resistant to impact. Carbon steel pipes have excellent impact and vibration resistance. Carbon steel seems to be better than other pipes when laying under the road.Cold rolled Galvanized Steel Coil
There are three main types of carbon steel: high carbon steel, medium carbon steel and low carbon steel. The carbon content of these steel grades determines the use in the manufacturing process. High carbon steel has the highest carbon content of 0.60%-0.99% and is the hardest carbon steel. High carbon steels have better tensile strength and are therefore commonly used in the manufacture of cutting tools, inserts, dies, springs and high strength steel wires. The medium carbon content is from 0.30% to 0.59%. Medium carbon steel is easier to process, and the addition of silicon and manganese increases the overall quality of the carbon. It is commonly used in buildings, bridges, axles, gears, tracks, axles, cars, refrigerators, washing machines and pipes. Low carbon steel has the lowest carbon content of 0.16%-0.29% and is the softest carbon steel. Low carbon steel is made into flat sheets and strips and then used in shipbuilding, wire, body and household appliances. It is also used for fences, gates and railings because it is hard but not too brittle. There is also super carbon steel, which tends to be less brittle and very hard. This is used to make extremely hard parts such as inserts, cutting tools, large machine parts, hot water radiators, industrial castings and metal lamp posts. Ultra-carbon steel is also known as “cast iron” and is also used in cooking pots.