EN 10025-6 Grade S500QL quenched and tempered (+QT)

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EN 10025-6 Grade S500QL quenched and tempered (+QT)

EN 10025-6 Grade S500QL quenched and tempered (+QT)

EN 10025-6 Grade S500QL quenched and tempered (+QT) introduction

S500QL is a tempered and weldable fine grained steel.
yield point: >500 N/mm²
application: welded steel constructions of various types, e.g. bridges and load-carrying constructions as well as transport vehicles, lifting and earthmoving machines.
application limits: at -40°C is warranted a notch impact energy of 30 J (longitudinal test specimen)
cold formability: for nominal size

Equivalent material: ASTM Grade D, GB Q500E, GB L05015, IS S500QE, IS E550-E, DIN TStE500V, DIN 1.8909, DIN TStE 500 V, DIN S500QL, DIN Aldur 50/65, AFNOR S500QL, BS S500QL, EN 1.8909, ISO S500Q E, ISO E 550-E

EN 10025-6 Grade S500QL quenched and tempered (+QT) general

Property	Temperature	Value	Condition	Related Standards	Shape
Density	20 °C	Density of 7.84 g/cm³	quenched and tempered (+QT)	EN 10025-6, EN 10137-2	Flat

EN 10025-6 Grade S500QL quenched and tempered (+QT) thermal

Property	Temperature	Value	Condition	Related Standards	Shape
Coefficient of thermal expansion	100 °C	Coefficient of thermal expansion of 1.2e-05 1/K	quenched and tempered (+QT)	EN 10025-6, EN 10137-2	Flat
Specific heat capacity	20 °C	Specific heat capacity of 430 J/(kg·K)	quenched and tempered (+QT)	EN 10025-6, EN 10137-2	Flat
Thermal conductivity	20 °C	Thermal conductivity of 39 W/(m·K)	quenched and tempered (+QT)	EN 10025-6, EN 10137-2	Flat

EN 10025-6 Grade S500QL quenched and tempered (+QT) chemical

Property	Value	Condition	Related Standards	Shape
Boron	Boron of 0.005 %	quenched and tempered (+QT)	EN 10137-2, EN 10025-6	Sheet, Flat
Carbon	Carbon of 0.2 %	quenched and tempered (+QT)	EN 10137-2, EN 10025-6	Sheet, Flat
Chromium	Chromium of 1.5 %	quenched and tempered (+QT)	EN 10137-2, EN 10025-6	Sheet, Flat
Copper	Copper of 0.5 %	quenched and tempered (+QT)	EN 10137-2, EN 10025-6	Sheet, Flat
Manganese	Manganese of 1.7 %	quenched and tempered (+QT)	EN 10137-2, EN 10025-6	Sheet, Flat
Molybdenum	Molybdenum of 0.7 %	quenched and tempered (+QT)	EN 10137-2, EN 10025-6	Sheet, Flat
Nickel	Nickel of 2 %	quenched and tempered (+QT)	EN 10137-2, EN 10025-6	Sheet, Flat
Niobium	Niobium of 0.06 %	quenched and tempered (+QT)	EN 10137-2, EN 10025-6	Sheet, Flat
Nitrogen	Nitrogen of 0.015 %	quenched and tempered (+QT)	EN 10137-2, EN 10025-6	Sheet, Flat
Phosphorus	Phosphorus of 0.02 %	quenched and tempered (+QT)	EN 10137-2, EN 10025-6	Sheet, Flat
Silicon	Silicon of 0.8 %	quenched and tempered (+QT)	EN 10137-2, EN 10025-6	Sheet, Flat
Sulfur	Sulfur of 0.01 %	quenched and tempered (+QT)	EN 10137-2, EN 10025-6	Sheet, Flat
Titanium	Titanium of 0.05 %	quenched and tempered (+QT)	EN 10137-2, EN 10025-6	Sheet, Flat
Vanadium	Vanadium of 0.12 %	quenched and tempered (+QT)	EN 10137-2, EN 10025-6	Sheet, Flat
Zirconium	Zirconium of 0.15 %	quenched and tempered (+QT)	EN 10137-2, EN 10025-6	Sheet, Flat

EN 10025-6 Grade S500QL quenched and tempered (+QT) electrical

Property	Temperature	Value	Condition	Related Standards	Shape	Comment
Electrical conductivity	-	Electrical conductivity of 5 S/m	-	-	-	Predicted Value
Electrical resistivity	20 °C	Electrical resistivity of 2.7e-07 Ω·m	quenched and tempered (+QT)	EN 10025-6, EN 10137-2	Flat	-

EN 10025-6 Grade S500QL quenched and tempered (+QT) mechanical

Property	Temperature	Value	Condition	Related Standards	Shape	Comment
Elastic modulus	20 °C	Elastic modulus of 210 GPa	quenched and tempered (+QT)	EN 10025-6, EN 10137-2	Flat	-
Elongation	-	Elongation of 13.8 %	-	-	-	Predicted Value, A200
-	-	Elongation of 15.0 %	-	-	-	Predicted Value, A80
-	-	Elongation of 17.9 %	-	-	-	Predicted Value, Transverse
-	-	Elongation of 18.3 %	-	-	-	Predicted Value, A80 Transverse
-	-	Elongation of 20.3 %	-	-	-	Predicted Value, A5
-	-	Elongation of 22.0 %	-	-	-	Predicted Value, A50
-	20 °C	Elongation of 17 %	quenched and tempered (+QT)	EN 10137-2, EN 10025-6	Sheet, Flat	-
Poisson's ratio	-	Poisson's ratio of 0.3 [-]	-	-	-	Typical for Steel
Reduction of area	-	Reduction of area of 40.1 %	-	-	-	Predicted Value
-	-	Reduction of area of 44.5 %	-	-	-	Predicted Value, Transverse
Shear modulus	20 °C	Shear modulus of 80 GPa	quenched and tempered (+QT)	EN 10025-6, EN 10137-2	Flat	-
Shear strength	-	Shear strength of 585.3 MPa	-	-	-	Predicted Value
Tensile strength	20 °C	Tensile strength of 540 - 790 MPa	quenched and tempered (+QT)	EN 10137-2, EN 10025-6	Sheet, Flat	-
-	20 °C	Tensile strength of 540 - 720 MPa	quenched and tempered (+QT)	EN 10137-2, EN 10025-6	Sheet, Flat	-
-	20 °C	Tensile strength of 540 - 770 MPa	quenched and tempered (+QT)	EN 10025-6, EN 10137-2	Flat	-
-	20 °C	Tensile strength of 590 - 790 MPa	quenched and tempered (+QT)	EN 10137-2, EN 10025-6	Sheet, Flat	-
-	20 °C	Tensile strength of 590 - 720 MPa	quenched and tempered (+QT)	EN 10137-2, EN 10025-6	Sheet, Flat	-
-	20 °C	Tensile strength of 590 - 770 MPa	quenched and tempered (+QT)	EN 10025-6, EN 10137-2	Flat	-
Yield strength	-	Yield strength of 299.4 MPa	-	-	-	Predicted Value, RP1
-	-	Yield strength of 330 MPa	-	-	-	Predicted Value, RP1 Transverse
-	-	Yield strength of 443.6 MPa	-	-	-	Predicted Value, Transverse
-	-	Yield strength of 454.4 MPa	-	-	-	Predicted Value, RP02
-	-	Yield strength of 490.9 MPa	-	-	-	Predicted Value, RP02 Transverse
-	-	Yield strength of 541.7 MPa	-	-	-	Predicted Value, RP05
-	-	Yield strength of 567.5 MPa	-	-	-	Predicted Value, RP002
-	20 °C	Yield strength of 440 MPa	quenched and tempered (+QT)	EN 10137-2, EN 10025-6	Sheet, Flat	-
-	20 °C	Yield strength of 480 MPa	quenched and tempered (+QT)	EN 10137-2, EN 10025-6	Sheet, Flat	-
-	20 °C	Yield strength of 500 MPa	quenched and tempered (+QT)	EN 10137-2, EN 10025-6	Sheet, Flat	-

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