AISI 1008 Carbon Steel Chemical Composition Properties, Grades, Tables and Online Pdf

AISI 1008 carbon steel, majorly utilized due to its excellent formability and welding properties, is a popular choice among manufacturers. Among those chemicals that made of it are iron that is in abundance, along with carbon, manganese, phosphorus and sulfur in precise proportions. The low carbon percentage of AISI 1008 enables it to be machinable and formable in a cold state, and it can be widely used in the production of parts related to cars, equipment and furniture. According to AISI 1008 specifications, these brand grades and their mechanical properties are standardized so that the chemical composition of metals is comparable among different manufacturers. The tables, chart and the online PDF datasheets give details of the material physical and mechanical characteristics and this provides guidance to the engineers as well as designers on which grade is best suited for their specific application needs.

AISI 1008 Carbon Steel Chemical Composition And Grade Table

The application of AISI 1008 carbon steel is in almost all sectors of our economy due to its really high weldability, formability, and cheap costs. Its chemical content includes mainly Fe and C with a small fraction of Mn, P, S, and Cu. The AISI 1008 carbon steel chart is designed to reflect the mechanical properties of this grade, namely tensile strength, yield strength, and elongation, among others, which can be used in automotive components, appliances, and structural parts as well as other industrial applications. Manufacturers and engineers normally use this table as a guide in the material selection process as well as when they want to ensure the expected performance in their designs and productions.

AISI 1008 Carbon Steel Composition Table
Elements Fe Mn C S P
Min (%) 99.31 0.30 - - -
Max (%) 99.7 0.50 0.10 0.050 0.040

Advantages and Disadvantages of AISI 1008 Carbon Steel

    Advantages:

  • Excellent Formability: High formability, desirable for deep drawing.

  • Weldable: Easy welding enhances fabrication.

  • Smooth Surface Finish: Provides a better surface finish.

  • Low Carbon Content: Better weldability and ductility.

    Disadvantages:

  • Low Strength: Lower tensile strength than higher carbon steel.

  • Limited Hardenability: Relatively low hardness.

  • Moderate Machinability: Machining may take longer.

  • Prone to Corrosion: Vulnerable to corrosion in specific conditions.

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