ASTM A519 Grade 8620 Introduce

ASTM A519 Grade 8620 tubing is an excellent choice for parts that need to be able to withstand high levels of stress and tension. The various grades of steel offer different strengths and levels of flexibility, making them suitable for a variety of applications. ASTM A519 Grade 8620 tubing is an excellent choice for parts that require strength and superior performance.

Smelting temperature:1615°C - 1664°C

Application:Seamless carbon steel and alloy steel mechanical tube

ASTM A519 Grade 8620 Material Chemical Composition

The chemical composition of the ASTM A519 Grade 8620 steel are as follows:

ElementMinMax
Silicon (Si)0.15000.3500
Sulfur (S)-0.0400
PhOsphorus (P)-0.0400
Nickel (Ni)0.40000.7000
Molybdenum (Mo)0.15000.2500
Manganese (Mn)0.70000.9000
Copper (Cu)-0.3500
Chromium (Cr)0.40000.6000
Carbon (C)0.18000.2300

ASTM A519 Grade 8620 Material Mechanical Properties

Tensile strength refers to the ability of a material to resist forces attempting to pull it apart. ASTM A519 Grade 8620 steel has a tensile strength range of 565 to 1045 MPa (83 to 151 ksi), depending on the grade. Higher grades of steel tend to have higher tensile strength.

The mechanical properties of the ASTM A519 Grade 8620 steel are as follows:

YieldRp0.2 ≤ 234 (MPa)
TeileRm≤ 591 (MPa)
ImpactKV/Ku14(J)
ElongationA23%
Reduction in cross section on fractureZ41%
As-Heat-Treated ConditionSolution and Aging, Annealing, Ausaging, Q+T,etc
Brinell hardness (HBW)322

ASTM A519 Grade 8620 Material Thermal Properties

The thermal performance parameters of the ASTM A519 Grade 8620 steel are as follows:

Temperature (°C)41952779
Modulus of elasticity (GPa)-387-
Mean coefficient of thermal expaion ×10-6/(°C)--23
Thermal conductivity (W/m·°C)-44.311.2
Specific thermal capacity (J/kg·°C)-313-
Specific electrical resistivity (Ω mm²/m)0.43--
Deity (kg/dm³)--412
Poisson’s coefficient, ν--133

ASTM A519 Grade 8620 Material Machining Technology

When machining ASTM A519 Grade 8620, it is important to observe the correct cutting speed and feeds as they are directly related to the quality of the finished part. For best results, the cutting speed should be adjusted to between 80–120 m/min and the feeds should be between 0.8–1.2 mm/rev. Apart from this, it is important to avoid cutting too deep or too quickly in order to minimize the risks of chipping or distortion.