SPRING STEEL

NORM: PN/EN 10132-4:2002U

Anmeldung:

Steel susceptible to different types of springs ( up to 6 mm ) as leaf springs, helical springs and coil springs etc.

Chemische Zusammensetzung:

CMnSiPSCrNiMoWVTiCuInne
0,52 - 0,600,60 - 0,901,60 – 2,00Max 0,025Max 0,0250,9-1,2Max 0,40Max 0,10-----

Mechanische Eigenschaften:

Mechanical properties after the process of annealing or annealing and rolling for the product with thickness of 0.3 mm ≤ t < 3 mm
Property Symbol Unit After heat treatment
Ultimate tensile strength Rm MPa ≤ 600
Yield stress Re (Rp0,2) MPa ≥ 740
Elongation A % ≥ 12
Percentage reduction of area Z %
Hardness HV HV ≤ 230
Mechanical properties after the process of cold rolling for the product thickness of 0.3 mm ≤ t < 3 mm
Property Symbol Unit Value
Tensile strength Rm MPa
Hardness HV HV
Mechanical properties after the process of toughening for the product thickness of 0.3 mm ≤ t < 3 mm
Property Symbol Unit Value
Ultimate tensile strength Rm MPa 1200 – 1700
Hardness HV HV 370-520
Effect of the cross-section on mechanical properties after the process of toughening
Thickness, mm 0.3 ≤ 0.5 0.5 ≤ 0.75 0.75 ≤ 1 1 ≤ 1.5 1.5 ≤ 2 2 ≤ 3
Hardness HV 485-535 465-515 455-505 445-495 425-475 415-465

Technologische Verarbeitung:

Technological treatment processes Possible application Temperature, °C
Hot forming Forging
Rolling + (900 – 830)
Treatment Heat treatment Quenching + 840-870/w,o
Tempering + 430 – 500
Precipitation strengthening Supersaturation
Ageing
Annealing Normalising + (850 – 880)
Soft annealing + (640 – 680)
Thermochemical treatment Carburising
Other

INTERNATIONALE STAHLSORTEN:

ISO EN Russia
~59Si7 ISO 683-14: 1992 56Si7 EN 10132-4: 2000 ~ 55S2 GOST 14959 1979
US Japan China
~9255 ASTM A 29-99 ~55Si2Mn GB 1222-84