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Hastelloy X coil is a high-temperature alloy containing nickel, chromium, and iron as its basic elements; with additions of molybdenum and cobalt. By selection, the Hastelloy X coil is appropriately used in situations where creep deformation or oxidation may occur in another coil.
The chemical composition table provides a breakdown of the elemental constituents that synergistically contribute to its exceptional mechanical strength and thermal stability.
Grade | Ni | Mo | Cr | Fe | Mn | C | Co | Si | P | S |
Hastelloy X | Balance | 8.00 – 10.00 | 20.50 – 23.00 | 17.00 – 20.00 | 1.00 max | 0.05 – 0.15 | 0.50 – 2.50 | 1.00 max | 0.04 max | 0.03 max |
Thus, the chemical composition table of Hastelloy X coil underscores its composition's critical role in enabling outstanding performance in extreme environments.
The mechanical properties table offers an overview of the performance characteristics that define the suitability of materials like Hastelloy X coil in demanding applications.
Density | Melting Point | Tensile Strength | Yield Strength (0.2%Offset) | Elongation |
8.22 g/cm³ | 1355°C | 655 MPa | 240 MPa | 35% |
Thus, the mechanical properties table provides a vital roadmap for understanding the robustness and performance capabilities of the Hastelloy X coil.
These benefits of Hastelloy X coil support industries that demand high-quality reliability and endurance in harsh conditions.
Thus, Hastelloy X coil has many advantages starting from high temperature and oxidation resistance up to great mechanical characteristics and chemical compatibility.
It is therefore evident that Hastelloy X coil has several applications about its ability to withstand harsh conditions.
Thus, proving that Hastelloy X coil is used in wide applications and is undoubtedly one of the most suitable products for demanding specialties.
Hastelloy X coil is a high-temperature alloy containing nickel, chromium, and iron as its basic elements; with additions of molybdenum and cobalt. By selection, the Hastelloy X coil is appropriately used in situations where creep deformation or oxidation may occur in another coil.
The chemical composition table provides a breakdown of the elemental constituents that synergistically contribute to its exceptional mechanical strength and thermal stability.
Grade | Ni | Mo | Cr | Fe | Mn | C | Co | Si | P | S |
Hastelloy X | Balance | 8.00 – 10.00 | 20.50 – 23.00 | 17.00 – 20.00 | 1.00 max | 0.05 – 0.15 | 0.50 – 2.50 | 1.00 max | 0.04 max | 0.03 max |
Thus, the chemical composition table of Hastelloy X coil underscores its composition's critical role in enabling outstanding performance in extreme environments.
The mechanical properties table offers an overview of the performance characteristics that define the suitability of materials like Hastelloy X coil in demanding applications.
Density | Melting Point | Tensile Strength | Yield Strength (0.2%Offset) | Elongation |
8.22 g/cm³ | 1355°C | 655 MPa | 240 MPa | 35% |
Thus, the mechanical properties table provides a vital roadmap for understanding the robustness and performance capabilities of the Hastelloy X coil.
These benefits of Hastelloy X coil support industries that demand high-quality reliability and endurance in harsh conditions.
Thus, Hastelloy X coil has many advantages starting from high temperature and oxidation resistance up to great mechanical characteristics and chemical compatibility.
It is therefore evident that Hastelloy X coil has several applications about its ability to withstand harsh conditions.
Thus, proving that Hastelloy X coil is used in wide applications and is undoubtedly one of the most suitable products for demanding specialties.
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