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Stainless Steel 321 circles are produced from an austenitic stainless steel material stabilised with titanium. This alloy, with about 17% chromium, 9% nickel and 1% titanium, is intended to have better high-temperature properties and resist carbide formation. The presence of titanium helps stabilise the alloy's carbon content and thus minimises intergranular corrosion during welding and at high temperatures.
The composition of the Stainless Steel 321 circle is crucial for understanding its properties and performance in various industrial applications.
Grade | C | Mn | Si | P | S | Cr | Ni | N | Ti |
SS 321 | 0.08 max | 2 max | 0.75 max | 0.045 max | 0.03 max | 17 – 19 | 9 – 12 | 0.10 max | 5xC min - 0.60% max |
Thus, this table provides valuable insight into the chemical composition of these circles, highlighting their properties and suitability.
The table provides essential information for engineers and manufacturers to assess the integrity and durability of the Stainless Steel 321 circle in demanding environments.
Element | Density | Melting Point | Tensile Strength | Yield Strength (0.2%Offset) | Elongation |
SS 321 | 8.0 g/cm3 | 1454 °C (2650 °F) | Psi – 75000 , MPa – 515 | Psi – 30000 , MPa – 205 | 35 % |
Thus, this valuable data on the Stainless Steel 321 circle's strength, flexibility, and resilience is crucial for ensuring reliability and longevity.
These flexible Circles offer numerous benefits for various industrial applications.
Stainless Steel 321 circle offers several advantages that make it suitable for industrial and commercial applications.
Due to its excellent features, the Stainless Steel 321 circle is preferred in various industrial applications. Some of the main applications include.
Stainless Steel 321 circles are applied across various industries due to their valuable features, which make them versatile.
Stainless Steel 321 circles are produced from an austenitic stainless steel material stabilised with titanium. This alloy, with about 17% chromium, 9% nickel and 1% titanium, is intended to have better high-temperature properties and resist carbide formation. The presence of titanium helps stabilise the alloy's carbon content and thus minimises intergranular corrosion during welding and at high temperatures.
The composition of the Stainless Steel 321 circle is crucial for understanding its properties and performance in various industrial applications.
Grade | C | Mn | Si | P | S | Cr | Ni | N | Ti |
SS 321 | 0.08 max | 2 max | 0.75 max | 0.045 max | 0.03 max | 17 – 19 | 9 – 12 | 0.10 max | 5xC min - 0.60% max |
Thus, this table provides valuable insight into the chemical composition of these circles, highlighting their properties and suitability.
The table provides essential information for engineers and manufacturers to assess the integrity and durability of the Stainless Steel 321 circle in demanding environments.
Element | Density | Melting Point | Tensile Strength | Yield Strength (0.2%Offset) | Elongation |
SS 321 | 8.0 g/cm3 | 1454 °C (2650 °F) | Psi – 75000 , MPa – 515 | Psi – 30000 , MPa – 205 | 35 % |
Thus, this valuable data on the Stainless Steel 321 circle's strength, flexibility, and resilience is crucial for ensuring reliability and longevity.
These flexible Circles offer numerous benefits for various industrial applications.
Stainless Steel 321 circle offers several advantages that make it suitable for industrial and commercial applications.
Due to its excellent features, the Stainless Steel 321 circle is preferred in various industrial applications. Some of the main applications include.
Stainless Steel 321 circles are applied across various industries due to their valuable features, which make them versatile.
metcore steel & alloys
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