DIN 1654-5 Grade X6Cr17 annealed to achieve spheroidized carbides (+AC)
DIN 1654-5 Grade X6Cr17 annealed to achieve spheroidized carbides (+AC) introduction
The steel X6Cr17 is well suited for cold-forming. The strain hardening inclination is significantly lower than that of stainless austenitic steels and is about equal to that of carbon steel. The ferritic, 17%-Cr steel is used to treat corrosion occurances through water, steam, weak acids, as well as solutions and oxidizing acids (for example nitric acid). Used for screws and molded parts. Temperature of use: up to 300 degrees C.
Equivalent material: GB 1Cr17, GB ML1Cr17, CSN 17040, AFNOR Z8C17, BS 430S17, GOST 12Ch17, ISO D1, UNI X8Cr17, JIS SUS430, PN H17, SS 2320, UNE F.3113-X8Cr17, ASTM 430, DIN 1.4016, DIN X8Cr17, DIN X3CrTi17, BS 430S15, UNE F.3113, AISI 430, SAE 430, JIS SUS430TP, JIS SUS430TB, JIS SUS430TKA, JIS SUS430TKC, JIS SUSY430, EN X6Cr17, EN 1.4016, ISO X6Cr17, ISO F1, ASTM S43000, UNS S43000
DIN 1654-5 Grade X6Cr17 annealed to achieve spheroidized carbides (+AC) general
| Property |
Temperature |
Value |
| Density |
20.0 °C |
Density of 7.65 g/cm³ |
DIN 1654-5 Grade X6Cr17 annealed to achieve spheroidized carbides (+AC) thermal
| Property |
Temperature |
Value |
Comment |
| Coefficient of thermal expansion |
-100.0 °C |
Coefficient of thermal expansion of 9.2E-6 1/K |
- |
| - |
20.0 °C |
Coefficient of thermal expansion of 9.9E-6 1/K |
- |
| - |
100.0 °C |
Coefficient of thermal expansion of 1E-5 - 1.03E-5 1/K |
- |
| - |
200.0 °C |
Coefficient of thermal expansion of 1E-5 - 1.08E-5 1/K |
- |
| - |
300.0 °C |
Coefficient of thermal expansion of 1.05E-5 - 1.12E-5 1/K |
- |
| - |
400.0 °C |
Coefficient of thermal expansion of 1.05E-5 - 1.16E-5 1/K |
- |
| - |
500.0 °C |
Coefficient of thermal expansion of 1.1E-5 - 1.19E-5 1/K |
- |
| - |
600.0 °C |
Coefficient of thermal expansion of 1.21E-5 1/K |
- |
| - |
700.0 °C |
Coefficient of thermal expansion of 1.24E-5 1/K |
- |
| - |
800.0 °C |
Coefficient of thermal expansion of 1.29E-5 1/K |
- |
| - |
900.0 °C |
Coefficient of thermal expansion of 1.34E-5 1/K |
- |
| - |
1000.0 °C |
Coefficient of thermal expansion of 1.39E-5 1/K |
- |
| Max service temperature, long |
- |
Max service temperature, long of 0 - 300 °C |
- |
| Melting point |
- |
Melting point of 1425 - 1530 °C |
Typical for Ferritic Stainless Steel |
| Specific heat capacity |
20.0 °C |
Specific heat capacity of 450 J/(kg·K) |
- |
| - |
100.0 °C |
Specific heat capacity of 482 J/(kg·K) |
- |
| - |
200.0 °C |
Specific heat capacity of 506 J/(kg·K) |
- |
| - |
300.0 °C |
Specific heat capacity of 525 J/(kg·K) |
- |
| - |
400.0 °C |
Specific heat capacity of 547 J/(kg·K) |
- |
| - |
500.0 °C |
Specific heat capacity of 576 J/(kg·K) |
- |
| - |
600.0 °C |
Specific heat capacity of 616 J/(kg·K) |
- |
| Thermal conductivity |
20.0 °C |
Thermal conductivity of 19.6 W/(m·K) |
- |
| Thermal diffusivity |
20.0 °C |
Thermal diffusivity of 5.7 mm²/s |
- |
DIN 1654-5 Grade X6Cr17 annealed to achieve spheroidized carbides (+AC) chemical
| Property |
Value |
| Carbon |
Carbon of 0.08 % |
| Chromium |
Chromium of 15.5 - 17.5 % |
| Manganese |
Manganese of 1 % |
| Phosphorus |
Phosphorus of 0.05 % |
| Silicon |
Silicon of 1 % |
| Sulfur |
Sulfur of 0.03 % |
DIN 1654-5 Grade X6Cr17 annealed to achieve spheroidized carbides (+AC) electrical
| Property |
Temperature |
Value |
| Electrical resistivity |
20.0 °C |
Electrical resistivity of 6.17E-7 Ω·m |
DIN 1654-5 Grade X6Cr17 annealed to achieve spheroidized carbides (+AC) mechanical
| Property |
Temperature |
Value |
| Elastic modulus |
20.0 °C |
Elastic modulus of 196 - 231.66 GPa |
| - |
95.0 °C |
Elastic modulus of 227.53 GPa |
| - |
100.0 °C |
Elastic modulus of 218 GPa |
| - |
150.0 °C |
Elastic modulus of 223.39 GPa |
| - |
200.0 °C |
Elastic modulus of 212 GPa |
| - |
205.0 °C |
Elastic modulus of 218.56 GPa |
| - |
260.0 °C |
Elastic modulus of 213.74 GPa |
| - |
300.0 °C |
Elastic modulus of 205 GPa |
| - |
315.0 °C |
Elastic modulus of 209.6 GPa |
| - |
370.0 °C |
Elastic modulus of 204.09 GPa |
| - |
400.0 °C |
Elastic modulus of 197 GPa |
| - |
425.0 °C |
Elastic modulus of 198.57 GPa |
| - |
485.0 °C |
Elastic modulus of 193.05 GPa |
| - |
540.0 °C |
Elastic modulus of 187.54 GPa |
| - |
595.0 °C |
Elastic modulus of 180.64 GPa |
| - |
650.0 °C |
Elastic modulus of 173.06 GPa |
| - |
705.0 °C |
Elastic modulus of 162.72 GPa |
| - |
760.0 °C |
Elastic modulus of 151.69 GPa |
| - |
815.0 °C |
Elastic modulus of 144.79 GPa |
| Poisson's ratio |
20.0 °C |
Poisson's ratio of 0.24 [-] |
| - |
95.0 °C |
Poisson's ratio of 0.27 [-] |
| - |
150.0 °C |
Poisson's ratio of 0.28 [-] |
| - |
205.0 °C |
Poisson's ratio of 0.29 [-] |
| - |
260.0 °C |
Poisson's ratio of 0.29 [-] |
| - |
315.0 °C |
Poisson's ratio of 0.29 [-] |
| - |
370.0 °C |
Poisson's ratio of 0.29 [-] |
| - |
425.0 °C |
Poisson's ratio of 0.29 [-] |
| - |
485.0 °C |
Poisson's ratio of 0.3 [-] |
| - |
540.0 °C |
Poisson's ratio of 0.31 [-] |
| - |
595.0 °C |
Poisson's ratio of 0.31 [-] |
| - |
650.0 °C |
Poisson's ratio of 0.34 [-] |
| - |
705.0 °C |
Poisson's ratio of 0.34 [-] |
| - |
760.0 °C |
Poisson's ratio of 0.33 [-] |
| - |
815.0 °C |
Poisson's ratio of 0.35 [-] |
| Reduction of area |
20.0 °C |
Reduction of area of 63 % |
| Shear modulus |
20.0 °C |
Shear modulus of 93.08 GPa |
| - |
95.0 °C |
Shear modulus of 89.63 GPa |
| - |
150.0 °C |
Shear modulus of 87.56 GPa |
| - |
205.0 °C |
Shear modulus of 84.81 GPa |
| - |
260.0 °C |
Shear modulus of 82.74 GPa |
| - |
315.0 °C |
Shear modulus of 81.36 GPa |
| - |
370.0 °C |
Shear modulus of 79.29 GPa |
| - |
425.0 °C |
Shear modulus of 77.22 GPa |
| - |
485.0 °C |
Shear modulus of 74.46 GPa |
| - |
540.0 °C |
Shear modulus of 71.71 GPa |
| - |
595.0 °C |
Shear modulus of 68.95 GPa |
| - |
650.0 °C |
Shear modulus of 64.81 GPa |
| - |
705.0 °C |
Shear modulus of 60.67 GPa |
| - |
760.0 °C |
Shear modulus of 57.23 GPa |
| - |
815.0 °C |
Shear modulus of 53.78 GPa |
| Tensile strength |
20.0 °C |
Tensile strength of 560 MPa |
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