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Stainless Steel 420 Plates are renowned for their durability, corrosion resistance, and low maintenance requirements. So, what makes this material so exceptional? The answer lies in its chemical composition, which includes a mixture of carbon, chromium, manganese, and other elements. Combining carbon and chromium makes the steel hard, while manganese enhances its strength and ductility. This potent blend results in a type of steel ideal for use in various industrial applications, including the production of cutting tools, surgical instruments, and automotive parts. Its attractive appearance and sleek finish make Stainless Steel 420 Plates a popular choice in the design and construction industries.
Stainless Steel 420 Plates are a highly sought-after material in manufacturing. The properties of this type of stainless steel make it ideal for a wide range of applications. With its high carbon content, 420 stainless steel plates is incredibly hard and durable, making it perfect for industrial environments. Its corrosion-resistant properties make it a great option for outdoor applications, and its ability to withstand high temperatures means it can be used in high-heat settings. Stainless Steel 420 Plates are also cost-effective and easy to machine, making them a popular choice for companies looking to streamline their manufacturing processes. Whether you're building a bridge or designing a piece of machinery, Stainless Steel 420 Plates are an excellent choice for any project that requires strength, durability, and corrosion resistance.
Explore the precise chemical composition of Stainless Steel 420 Plates for optimal performance in various applications.
C | Mn | Si | P | S | Cr |
0.15 | 1.00 | 1.00 | 0.04 | 0.03 | 12.0-14.0 |
Stainless Steel 420 Plates demonstrate a well-balanced chemical composition, ensuring durability, corrosion resistance, and reliable performance.
Discover the robust mechanical characteristics of Stainless Steel 420 Plates through a comprehensive and informative properties table.
Tempering Temperature (°C) | Tensile Strength (MPa) | Yield Strength 0.2% Proof (MPa) | Elongation (% in 50mm) | Hardness Brinell (HB) |
Annealed * | 655 | 345 | 25 | 241 max |
399°F (204°C) | 1600 | 1360 | 12 | 444 |
600°F (316°C) | 1580 | 1365 | 14 | 444 |
800°F (427°C) | 1620 | 1420 | 10 | 461 |
1000°F (538°C) | 1305 | 1095 | 15 | 375 |
1099°F (593°C) | 1035 | 810 | 18 | 302 |
1202°F (650°C) | 895 | 680 | 20 | 262 |
Stainless Steel 420 Plates exhibit impressive mechanical properties, including high strength, hardness, and corrosion resistance for durability.
Explore the intrinsic characteristics of Stainless Steel 420 Plates through a detailed Physical Properties table.
Density kg /m3 | Thermal Conductivity W/mK | Electrical Resistivity (Microhm/cm) | Modulus of Elasticity | Coefficient of Thermal Expansion μm/m/°C | Specific Heat (J/kg.K) |
7750 | 24.9at 212°F | 550 (nΩ.m) at 68°F | 200 GPa | 10.3 at 32 – 212°F | 460 at 32°F to 212°F |
Stainless Steel 420 Plates showcase superior physical properties, ensuring stability, resilience, and versatility for diverse applications.
Stainless steel 420 plates are a versatile and reliable material with various applications, from cutlery to aerospace components. The combination of corrosion, high hardness, and heat resistance makes these plates essential in industries where durability and performance are critical.
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