Whether you are a buyer, supplier, or end user, there are many different factors that you need to be aware of when looking for ASTM A516 Gr.60 steel plates. The type of steel you choose, the application it is used in, and the inspection, testing, and heat treatment procedures that are used to ensure the quality of the metal are all important. This article will help you navigate these different aspects so you can make an informed decision when it comes to choosing the right steel plate for your application.
ASTM A516 Gr 60
Among the four grades of ASTM A516 Gr 60 plates, the one that has the most excellent mechanical properties is Grade 60. This is a high-quality carbon steel plate that is best suited for welded pressure vessels and other industrial boilers. It has good notch toughness and is resistant to oxidization. It is also known for its exceptional weldability.
The material is available in standard sizes or can be ordered for special requirements. It is also available in coils and foils. It has a minimum Tensile Strength of 55 ksi to 70 ksi. It is ideal for applications involving moderate temperatures and wet H2S. It is a common specification for welded strain vessels and pressure vessels.
Mechanical properties
Whether you're looking for a boiler or pressure vessel grade steel plate, the A516 grade is a good choice. It has good weldability and offers excellent performance at low temperatures.
ASTM A516 Grade 60 is carbon steel that's suitable for use in welded pressure vessels. It offers a great level of notch toughness and can handle oxidizing conditions. It's used in the fabrication of pressure vessels such as boilers and oil tanks. The chromium content in this material provides outstanding resistance to nitric acid solutions and oxidizing conditions.
Heat treatment
Various tests are performed on steel plates to ensure their quality. Some of the common tests include notch toughness, hydrostatic test, impact test, and flattening test. The material is also subjected to product analysis and ultrasonic examination.
During heat treatment, the grain structure of the metal changes, increasing its hardness and ductility. These properties are important for the fabrication of pressure vessels. The material is available in different sizes and thicknesses. It can be supplied in an annealed or normalized condition.