EN 10028-2 Grade P355GH normalized or normalized formed (+N)

EN 10028-2 Grade P355GH normalized or normalized formed (+N) introduction

Non-alloy heat-resistant steel. Application in steam-boiler and pressure vessel construction.
Max. application temp. approx. 400 °C

Equivalent material: GB Q345R, GB U50345, IS SPV355, IS SGV410, IS SGV450, IS SGV480, KS SPPV355, ASTM A299 Grade A, ASTM A299 Grade B, ASTM A414 Grade G, UNS K02803, UNS K03103, UNS K12437, DIN P355GH, AFNOR A52AP, AFNOR A52CP, GOST 17GS, UNI FeE355-2, IS SPV36, ÖNORM 19Mn6KW, SS 2101, SS 2102, UNE A52RC1/RAII, ASTM Grade 70, DIN 19Mn6, IS P355GH, DIN 1.0473, EN 19Mn6, EN 1.0473, AFNOR P355GH, UNE A52RCI, BS P355GH, BS 224-490, JIS SPV36, JIS SPV355, JIS SGV410, JIS SGV450, JIS SGV480, ISO P355GH, ISO P520Q, ISO P550Q, ISO PH29, GB/T Q345R, GB/T L13454, ASTM Grade A

EN 10028-2 Grade P355GH normalized or normalized formed (+N) general

Property Temperature Value Condition Related Standards Shape
Density 20 °C Density of 7.82 g/cm³ normalized or normalized formed (+N) EN 10028-2 Flat
- 20 °C Density of 7.82 - 7.83 g/cm³ normalized or normalized formed (+N) EN 10028-2 Flat
- 20 °C Density of 7.83 g/cm³ normalized or normalized formed (+N) EN 10028-2 Flat

EN 10028-2 Grade P355GH normalized or normalized formed (+N) thermal

Property Temperature Value Condition Related Standards Shape Comment
Coefficient of thermal expansion -100 °C Coefficient of thermal expansion of 1.08e-05 1/K normalized or normalized formed (+N) EN 10028-2 Flat -
- 20 °C Coefficient of thermal expansion of 1.19e-05 1/K normalized or normalized formed (+N) EN 10028-2 Flat -
- 100 °C Coefficient of thermal expansion of 1.22e-05 1/K normalized or normalized formed (+N) EN 10028-2 Flat -
- 100 °C Coefficient of thermal expansion of 1.22e-05 - 1.25e-05 1/K normalized or normalized formed (+N) EN 10028-2 Flat -
- 100 °C Coefficient of thermal expansion of 1.25e-05 1/K normalized or normalized formed (+N) EN 10028-2 Flat -
- 200 °C Coefficient of thermal expansion of 1.29e-05 1/K normalized or normalized formed (+N) EN 10028-2 Flat -
- 200 °C Coefficient of thermal expansion of 1.29e-05 - 1.3e-05 1/K normalized or normalized formed (+N) EN 10028-2 Flat -
- 200 °C Coefficient of thermal expansion of 1.3e-05 1/K normalized or normalized formed (+N) EN 10028-2 Flat -
- 300 °C Coefficient of thermal expansion of 1.34e-05 1/K normalized or normalized formed (+N) EN 10028-2 Flat -
- 300 °C Coefficient of thermal expansion of 1.34e-05 - 1.36e-05 1/K normalized or normalized formed (+N) EN 10028-2 Flat -
- 300 °C Coefficient of thermal expansion of 1.36e-05 1/K normalized or normalized formed (+N) EN 10028-2 Flat -
- 400 °C Coefficient of thermal expansion of 1.4e-05 1/K normalized or normalized formed (+N) EN 10028-2 Flat -
- 400 °C Coefficient of thermal expansion of 1.4e-05 - 1.41e-05 1/K normalized or normalized formed (+N) EN 10028-2 Flat -
- 400 °C Coefficient of thermal expansion of 1.41e-05 1/K normalized or normalized formed (+N) EN 10028-2 Flat -
- 500 °C Coefficient of thermal expansion of 1.43e-05 1/K normalized or normalized formed (+N) EN 10028-2 Flat -
- 500 °C Coefficient of thermal expansion of 1.43e-05 - 1.45e-05 1/K normalized or normalized formed (+N) EN 10028-2 Flat -
- 500 °C Coefficient of thermal expansion of 1.45e-05 1/K normalized or normalized formed (+N) EN 10028-2 Flat -
- 600 °C Coefficient of thermal expansion of 1.46e-05 1/K normalized or normalized formed (+N) EN 10028-2 Flat -
- 600 °C Coefficient of thermal expansion of 1.46e-05 - 1.49e-05 1/K normalized or normalized formed (+N) EN 10028-2 Flat -
- 600 °C Coefficient of thermal expansion of 1.49e-05 1/K normalized or normalized formed (+N) EN 10028-2 Flat -
Max service temperature - Max service temperature of 20 - 400 °C normalized or normalized formed (+N) EN 10028-2 Flat Long
- - Max service temperature of 400 °C normalized or normalized formed (+N) EN 10028-2 Flat Long
- - Max service temperature of 500 °C - - - Typical for Carbon Steel
Melting point - Melting point of 1480 - 1526 °C - - - Typical for Low Carbon Steel
Specific heat capacity -100 °C Specific heat capacity of 423 J/(kg·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 20 °C Specific heat capacity of 430 J/(kg·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 20 °C Specific heat capacity of 430 - 461 J/(kg·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 20 °C Specific heat capacity of 461 J/(kg·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 100 °C Specific heat capacity of 479 - 500 J/(kg·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 100 °C Specific heat capacity of 479 J/(kg·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 100 °C Specific heat capacity of 500 J/(kg·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 200 °C Specific heat capacity of 499 - 540 J/(kg·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 200 °C Specific heat capacity of 499 J/(kg·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 200 °C Specific heat capacity of 540 J/(kg·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 300 °C Specific heat capacity of 517 - 580 J/(kg·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 300 °C Specific heat capacity of 517 J/(kg·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 300 °C Specific heat capacity of 580 J/(kg·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 400 °C Specific heat capacity of 536 - 620 J/(kg·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 400 °C Specific heat capacity of 536 J/(kg·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 400 °C Specific heat capacity of 620 J/(kg·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 500 °C Specific heat capacity of 558 - 690 J/(kg·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 500 °C Specific heat capacity of 558 J/(kg·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 500 °C Specific heat capacity of 690 J/(kg·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 600 °C Specific heat capacity of 587 - 780 J/(kg·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 600 °C Specific heat capacity of 587 J/(kg·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 600 °C Specific heat capacity of 780 J/(kg·K) normalized or normalized formed (+N) EN 10028-2 Flat -
Thermal conductivity 20 °C Thermal conductivity of 39.7 - 40 W/(m·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 20 °C Thermal conductivity of 39.7 W/(m·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 20 °C Thermal conductivity of 40 W/(m·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 100 °C Thermal conductivity of 41 W/(m·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 100 °C Thermal conductivity of 41 - 41.3 W/(m·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 100 °C Thermal conductivity of 41.3 W/(m·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 200 °C Thermal conductivity of 41 W/(m·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 200 °C Thermal conductivity of 41 - 41.5 W/(m·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 200 °C Thermal conductivity of 41.5 W/(m·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 300 °C Thermal conductivity of 40 W/(m·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 300 °C Thermal conductivity of 40 - 40.4 W/(m·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 300 °C Thermal conductivity of 40.4 W/(m·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 400 °C Thermal conductivity of 38 W/(m·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 400 °C Thermal conductivity of 38 - 38.7 W/(m·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 400 °C Thermal conductivity of 38.7 W/(m·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 500 °C Thermal conductivity of 36 W/(m·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 500 °C Thermal conductivity of 36 - 36.6 W/(m·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 500 °C Thermal conductivity of 36.6 W/(m·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 600 °C Thermal conductivity of 34 W/(m·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 600 °C Thermal conductivity of 34 - 34.3 W/(m·K) normalized or normalized formed (+N) EN 10028-2 Flat -
- 600 °C Thermal conductivity of 34.3 W/(m·K) normalized or normalized formed (+N) EN 10028-2 Flat -
Thermal diffusivity 20 °C Thermal diffusivity of 11 mm²/s normalized or normalized formed (+N) EN 10028-2 Flat -
- 100 °C Thermal diffusivity of 10.7 mm²/s normalized or normalized formed (+N) EN 10028-2 Flat -
- 200 °C Thermal diffusivity of 10 mm²/s normalized or normalized formed (+N) EN 10028-2 Flat -
- 300 °C Thermal diffusivity of 9.2 mm²/s normalized or normalized formed (+N) EN 10028-2 Flat -
- 400 °C Thermal diffusivity of 8.2 mm²/s normalized or normalized formed (+N) EN 10028-2 Flat -
- 500 °C Thermal diffusivity of 7.1 mm²/s normalized or normalized formed (+N) EN 10028-2 Flat -
- 600 °C Thermal diffusivity of 5.8 mm²/s normalized or normalized formed (+N) EN 10028-2 Flat -

EN 10028-2 Grade P355GH normalized or normalized formed (+N) chemical

Property Value Condition Related Standards Shape
Aluminium Aluminium of 0.02 % normalized or normalized formed (+N) EN 10028-2 Flat
Carbon Carbon of 0.1 - 0.22 % normalized or normalized formed (+N) EN 10028-2 Flat
Chromium Chromium of 0.3 % normalized or normalized formed (+N) EN 10028-2 Flat
Copper Copper of 0.3 % normalized or normalized formed (+N) EN 10028-2 Flat
Manganese Manganese of 1.1 - 1.7 % normalized or normalized formed (+N) EN 10028-2 Flat
Molybdenum Molybdenum of 0.08 % normalized or normalized formed (+N) EN 10028-2 Flat
Nickel Nickel of 0.3 % normalized or normalized formed (+N) EN 10028-2 Flat
Niobium Niobium of 0.02 % normalized or normalized formed (+N) EN 10028-2 Flat
- Niobium of 0.04 % normalized or normalized formed (+N) EN 10028-2 Flat
Nitrogen Nitrogen of 0.012 % normalized or normalized formed (+N) EN 10028-2 Flat
Phosphorus Phosphorus of 0.025 % normalized or normalized formed (+N) EN 10028-2 Flat
Silicon Silicon of 0.6 % normalized or normalized formed (+N) EN 10028-2 Flat
Sulfur Sulfur of 0.01 % normalized or normalized formed (+N) EN 10028-2 Flat
- Sulfur of 0.015 % normalized or normalized formed (+N) EN 10028-2 Flat
Titanium Titanium of 0.03 % normalized or normalized formed (+N) EN 10028-2 Flat
Vanadium Vanadium of 0.02 % normalized or normalized formed (+N) EN 10028-2 Flat

EN 10028-2 Grade P355GH normalized or normalized formed (+N) magnetic

Property Value Comment
Curie temperature Curie temperature of 770 °C Typical for Low Carbon Steel

EN 10028-2 Grade P355GH normalized or normalized formed (+N) electrical

Property Temperature Value Condition Related Standards Shape Comment
Electrical conductivity - Electrical conductivity of 6 S/m - - - Predicted Value
Electrical resistivity 20 °C Electrical resistivity of 2.6e-07 Ω·m normalized or normalized formed (+N) EN 10028-2 Flat -
- 20 °C Electrical resistivity of 2.6e-07 - 2.62e-07 Ω·m normalized or normalized formed (+N) EN 10028-2 Flat -
- 20 °C Electrical resistivity of 2.62e-07 Ω·m normalized or normalized formed (+N) EN 10028-2 Flat -
- 100 °C Electrical resistivity of 3.1e-07 Ω·m normalized or normalized formed (+N) EN 10028-2 Flat -
- 200 °C Electrical resistivity of 3.8e-07 Ω·m normalized or normalized formed (+N) EN 10028-2 Flat -
- 300 °C Electrical resistivity of 4.64e-07 - 4.7e-07 Ω·m normalized or normalized formed (+N) EN 10028-2 Flat -
- 300 °C Electrical resistivity of 4.64e-07 Ω·m normalized or normalized formed (+N) EN 10028-2 Flat -
- 300 °C Electrical resistivity of 4.7e-07 Ω·m normalized or normalized formed (+N) EN 10028-2 Flat -
- 400 °C Electrical resistivity of 5.62e-07 - 5.7e-07 Ω·m normalized or normalized formed (+N) EN 10028-2 Flat -
- 400 °C Electrical resistivity of 5.62e-07 Ω·m normalized or normalized formed (+N) EN 10028-2 Flat -
- 400 °C Electrical resistivity of 5.7e-07 Ω·m normalized or normalized formed (+N) EN 10028-2 Flat -
- 500 °C Electrical resistivity of 6.76e-07 - 6.9e-07 Ω·m normalized or normalized formed (+N) EN 10028-2 Flat -
- 500 °C Electrical resistivity of 6.76e-07 Ω·m normalized or normalized formed (+N) EN 10028-2 Flat -
- 500 °C Electrical resistivity of 6.9e-07 Ω·m normalized or normalized formed (+N) EN 10028-2 Flat -
- 600 °C Electrical resistivity of 8.07e-07 - 8.2e-07 Ω·m normalized or normalized formed (+N) EN 10028-2 Flat -
- 600 °C Electrical resistivity of 8.07e-07 Ω·m normalized or normalized formed (+N) EN 10028-2 Flat -
- 600 °C Electrical resistivity of 8.2e-07 Ω·m normalized or normalized formed (+N) EN 10028-2 Flat -

EN 10028-2 Grade P355GH normalized or normalized formed (+N) mechanical

Property Temperature Value Condition Related Standards Shape Comment
Elastic modulus -100 °C Elastic modulus of 217 GPa normalized or normalized formed (+N) EN 10028-2 Flat -
- 20 °C Elastic modulus of 212 GPa normalized or normalized formed (+N) EN 10028-2 Flat -
- 100 °C Elastic modulus of 207 - 208 GPa normalized or normalized formed (+N) EN 10028-2 Flat -
- 100 °C Elastic modulus of 207 GPa normalized or normalized formed (+N) EN 10028-2 Flat -
- 100 °C Elastic modulus of 208 GPa normalized or normalized formed (+N) EN 10028-2 Flat -
- 200 °C Elastic modulus of 199 - 201 GPa normalized or normalized formed (+N) EN 10028-2 Flat -
- 200 °C Elastic modulus of 199 GPa normalized or normalized formed (+N) EN 10028-2 Flat -
- 200 °C Elastic modulus of 201 GPa normalized or normalized formed (+N) EN 10028-2 Flat -
- 300 °C Elastic modulus of 192 - 193 GPa normalized or normalized formed (+N) EN 10028-2 Flat -
- 300 °C Elastic modulus of 192 GPa normalized or normalized formed (+N) EN 10028-2 Flat -
- 300 °C Elastic modulus of 193 GPa normalized or normalized formed (+N) EN 10028-2 Flat -
- 400 °C Elastic modulus of 184 - 185 GPa normalized or normalized formed (+N) EN 10028-2 Flat -
- 400 °C Elastic modulus of 184 GPa normalized or normalized formed (+N) EN 10028-2 Flat -
- 400 °C Elastic modulus of 185 GPa normalized or normalized formed (+N) EN 10028-2 Flat -
- 500 °C Elastic modulus of 175 GPa normalized or normalized formed (+N) EN 10028-2 Flat -
- 600 °C Elastic modulus of 164 GPa normalized or normalized formed (+N) EN 10028-2 Flat -
Elongation - Elongation of 15.2 % - - - Predicted Value, A80 Transverse
- - Elongation of 15.4 % - - - Predicted Value, A80
- - Elongation of 15.4 % - - - Predicted Value, A200
- - Elongation of 16.7 % - - - Predicted Value, A5
- - Elongation of 19.1 % - - - Predicted Value, A50
- 20 °C Elongation of 20 % normalized or normalized formed (+N) EN 10028-2 Flat Transverse
- 20 °C Elongation of 20 % normalized or normalized formed (+N) EN 10028-2 Flat -
Hardness, Brinell - Hardness, Brinell of 245 [-] - - - Predicted Value, Transverse
Poisson's ratio - Poisson's ratio of 0.29 [-] - - - Typical for Low Carbon Steel
Reduction of area - Reduction of area of 38.7 % - - - Predicted Value
- - Reduction of area of 44.2 % - - - Predicted Value, Transverse
Shear modulus - Shear modulus of 82 GPa - - - Typical for Low Carbon Steel
Shear strength - Shear strength of 550.7 MPa - - - Predicted Value
Tensile strength 20 °C Tensile strength of 470 - 650 MPa normalized or normalized formed (+N) EN 10028-2 Flat Transverse
- 20 °C Tensile strength of 470 - 630 MPa normalized or normalized formed (+N) EN 10028-2 Flat Transverse
- 20 °C Tensile strength of 470 - 650 MPa normalized or normalized formed (+N) EN 10028-2 Flat -
- 20 °C Tensile strength of 470 - 630 MPa normalized or normalized formed (+N) EN 10028-2 Flat -
- 20 °C Tensile strength of 480 - 650 MPa normalized or normalized formed (+N) EN 10028-2 Flat Transverse
- 20 °C Tensile strength of 480 - 630 MPa normalized or normalized formed (+N) EN 10028-2 Flat Transverse
- 20 °C Tensile strength of 480 - 650 MPa normalized or normalized formed (+N) EN 10028-2 Flat -
- 20 °C Tensile strength of 480 - 630 MPa normalized or normalized formed (+N) EN 10028-2 Flat -
- 20 °C Tensile strength of 490 - 650 MPa normalized or normalized formed (+N) EN 10028-2 Flat Transverse
- 20 °C Tensile strength of 490 - 630 MPa normalized or normalized formed (+N) EN 10028-2 Flat Transverse
- 20 °C Tensile strength of 490 - 650 MPa normalized or normalized formed (+N) EN 10028-2 Flat -
- 20 °C Tensile strength of 490 - 630 MPa normalized or normalized formed (+N) EN 10028-2 Flat -
- 20 °C Tensile strength of 510 - 650 MPa normalized or normalized formed (+N) EN 10028-2 Flat Transverse
- 20 °C Tensile strength of 510 - 630 MPa normalized or normalized formed (+N) EN 10028-2 Flat Transverse
- 20 °C Tensile strength of 510 - 650 MPa normalized or normalized formed (+N) EN 10028-2 Flat -
- 20 °C Tensile strength of 510 - 630 MPa normalized or normalized formed (+N) EN 10028-2 Flat -
Yield strength - Yield strength of 289.3 MPa - - - Predicted Value, RP1 Transverse
- - Yield strength of 297.5 MPa - - - Predicted Value, RP1
- - Yield strength of 432 MPa - - - Predicted Value, RP05
- - Yield strength of 451.1 MPa - - - Predicted Value, RP02 Transverse
- - Yield strength of 601.7 MPa - - - Predicted Value, RP002
- 20 °C Yield strength of 280 MPa normalized or normalized formed (+N) EN 10028-2 Flat Transverse
- 20 °C Yield strength of 280 MPa normalized or normalized formed (+N) EN 10028-2 Flat -
- 20 °C Yield strength of 295 MPa normalized or normalized formed (+N) EN 10028-2 Flat Transverse
- 20 °C Yield strength of 295 MPa normalized or normalized formed (+N) EN 10028-2 Flat -
- 20 °C Yield strength of 315 MPa normalized or normalized formed (+N) EN 10028-2 Flat Transverse
- 20 °C Yield strength of 315 MPa normalized or normalized formed (+N) EN 10028-2 Flat -
- 20 °C Yield strength of 335 MPa normalized or normalized formed (+N) EN 10028-2 Flat Transverse
- 20 °C Yield strength of 335 MPa normalized or normalized formed (+N) EN 10028-2 Flat -
- 20 °C Yield strength of 345 MPa normalized or normalized formed (+N) EN 10028-2 Flat Transverse
- 20 °C Yield strength of 345 MPa normalized or normalized formed (+N) EN 10028-2 Flat -
- 20 °C Yield strength of 355 MPa normalized or normalized formed (+N) EN 10028-2 Flat Transverse
- 20 °C Yield strength of 355 MPa normalized or normalized formed (+N) EN 10028-2 Flat -
- 50 °C Yield strength of 271 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 50 °C Yield strength of 285 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 50 °C Yield strength of 305 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 50 °C Yield strength of 324 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 50 °C Yield strength of 334 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 50 °C Yield strength of 343 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 100 °C Yield strength of 255 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 100 °C Yield strength of 268 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 100 °C Yield strength of 287 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 100 °C Yield strength of 305 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 100 °C Yield strength of 314 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 100 °C Yield strength of 323 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 150 °C Yield strength of 236 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 150 °C Yield strength of 249 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 150 °C Yield strength of 265 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 150 °C Yield strength of 282 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 150 °C Yield strength of 291 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 150 °C Yield strength of 299 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 200 °C Yield strength of 217 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 200 °C Yield strength of 228 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 200 °C Yield strength of 244 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 200 °C Yield strength of 259 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 200 °C Yield strength of 267 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 200 °C Yield strength of 275 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 250 °C Yield strength of 199 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 250 °C Yield strength of 209 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 250 °C Yield strength of 224 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 250 °C Yield strength of 238 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 250 °C Yield strength of 245 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 250 °C Yield strength of 252 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 300 °C Yield strength of 183 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 300 °C Yield strength of 192 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 300 °C Yield strength of 206 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 300 °C Yield strength of 219 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 300 °C Yield strength of 225 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 300 °C Yield strength of 232 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 350 °C Yield strength of 169 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 350 °C Yield strength of 178 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 350 °C Yield strength of 190 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 350 °C Yield strength of 202 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 350 °C Yield strength of 208 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 350 °C Yield strength of 214 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 400 °C Yield strength of 159 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 400 °C Yield strength of 167 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 400 °C Yield strength of 179 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 400 °C Yield strength of 190 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 400 °C Yield strength of 196 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02
- 400 °C Yield strength of 202 MPa normalized or normalized formed (+N) EN 10028-2 Flat RP02

Contact us

Henan Bebon Iron&Steel Co., Ltd.

Xicheng Science & Technology Building High-tech Development Zone, Zhengzhou, China

Tel: +86-371-86151827

E-Mail: [email protected]

PlaceholderContact us

Message