30Mn Steel Plate

30Mn steel plate is a medium-carbon, high-quality carbon structural steel in the form of hot-rolled heavy gauge plate. Its technical requirements are primarily governed by the Chinese national standard GB/T 711-2017 "Hot-Rolled Heavy Gauge Steel Plates and Strips of High-Quality Carbon Structural Steel". This standard serves as the core technical specification for the domestic production, inspection, and trade of such steels, clearly defining chemical composition, mechanical properties, dimensional tolerances, surface quality, and test methods for various grades, including 30Mn.

The designation "30Mn" consists of three parts: "30" indicates an average carbon content of 0.30% (i.e., thirty parts per ten thousand), classifying it as a medium-carbon steel; "Mn" is the chemical symbol for Manganese, indicating that this grade has an elevated manganese content compared to standard 30# steel. According to the standard, the manganese content in 30Mn steel is typically controlled within the range of 0.70%–1.00%, whereas standard 30# steel contains approximately 0.50%–0.80%. Thus, 30Mn steel is a medium-carbon, high-manganese steel strengthened by the addition of manganese, offering a combination of high strength and good overall performance.

Compared to standard 30# steel, 30Mn steel exhibits superior mechanical properties due to its higher manganese content. Manganese provides significant solid-solution strengthening, effectively increasing the steel’s strength and hardness. Additionally, it expands the austenite phase field and notably improves hardenability, making the steel more responsive to heat treatment (quenching and tempering), thereby achieving higher strength, good toughness, and excellent fatigue strength and wear resistance. These characteristics make 30Mn steel an ideal material for manufacturing critical components subjected to medium to high loads.

The primary applications of 30Mn steel plate are in machinery manufacturing, automotive, construction machinery, mining equipment, and general industrial sectors. It is widely used for producing parts that require high strength, hardness, and wear resistance under medium to heavy loads, including:

    Machinery Manufacturing: Gears, shafts (e.g., drive shafts, spindles, crankshafts), connecting rods, bolts, pins, cams, sleeves, and other key load-bearing components.
    Automotive and Construction Vehicles: Half-shafts, steering knuckles, suspension links, high-strength fasteners, and sprockets.
    Mining and Metallurgical Equipment: Wear-resistant liners, crusher hammers, rolls, guides, and conveyor rollers—components prone to wear or impact.
    General Equipment: High-strength frames, pressure vessel components, valve parts, and industrial tools.

Key characteristics include: high strength and hardness (tensile strength of 700–900 MPa after quenching and tempering), good ductility and toughness, excellent machinability (in annealed or normalized condition), and moderate weldability (preheating at 150–250°C is required, and post-weld stress relief annealing is recommended). Cold formability is poor, making it unsuitable for deep drawing. As a structural material offering performance superior to plain carbon steels and lower cost than alloy steels, 30Mn steel plate has broad application value in applications where alloy steels are unnecessary to meet performance requirements.