AISI 1017 Carbon Steel Chemical Properties, Grades, Chart and PDF Online

AISI 1017 carbon steel, an example of low-carbon steel alloys, possesses a remarkable welding, shaping, and machining ability. With a negligible carbon content of only 0.15%, it can provide good strength and ruggedness characteristics which have a wide application across various industrial activities. The steel of this grade is ideal in the manufacturing of bolts, screws, studs, and in other fasteners, as well as in structural components, due to its strong attributes. AISI 1017 AA corresponds to ASTM A29 standards. Its chemical makeup is normally elemental,being of Fe, Mn,S, Se and some other components. Engineers and manufacturers commonly turn to extensive online table, charts and PDF documents from which they can extract very specialized data to ensure the mechanical characteristics, heat treatment protocols, and grade variations suit a particular project.

AISI 1017 Carbon Steel Chemical Composition And Grade Table

AISI 1017 carbon steel is classified as a low carbon steel with the chemical composition exactly identified by the American Iron and Steel Institute (AISI). Its alloy structure generally will include the elements of carbon, manganese, phosphorus, sulfur, and iron, with the amounts just proper to make it strong and moldable to make fabrics and machine tools, knives etc. This grade table functions as a comprehensive table listing the exact composition and grade of the AISI 1017 material that will be used by manufacturers, engineers, and metallurgists to examine their applications and select the correct material.

AISI 1017 Carbon Steel Composition Table
Elements Fe Mn C S P
Min (%) 99.11 0.30 0.14 0.050 0.040
Max (%) 99.56 0.60 0.20 <0.050 <0.040

Advantages and Disadvantages of AISI 1017 Carbon Steel


  • Good Formability: Can be manufactured into various shapes.

  • Cost-effective: Relatively low cost compared to alloyed steels.

  • Decent Weldability: Provides favorable welded characteristics.

  • Moderate Strength: Suitable for typical uses.


  • Limited Hardenability: Not well-suited for hardening.

  • Susceptible to Corrosion: May degrade in certain conditions.

  • Moderate Wear Resistance: May not hold up well under high-wear situations.

  • Lower Tensile Strength: Possesses lower tensile strength compared to higher carbon steels.

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