Stainless Steel 304H Plates

Stainless steel 304H plates are high-carbon versions of the 304 grade, offering enhanced strength at elevated temperatures. Comprising iron, carbon, chromium, manganese, nickel, silicon, and phosphorus, this material stands out as a highly corrosion-resistant metal with good strength and high-temperature resistance. Adding manganese to the base alloy makes super 304h stainless steel plate resistant to intergranular corrosion while featuring superior mechanical properties such as tensile strength and flexibility. 

Chemical Composition of Stainless Steel 304H Plates

The composition of Stainless steel 304H plates is crucial for understanding their properties and performance in various industrial applications.

Thus, this table provides valuable insights into the chemical composition of these pipes, highlighting their properties and suitability. 

Mechanical Properties of Stainless Steel 304H Plates

The table provides essential information for engineers and manufacturers to assess the integrity and durability of Stainless steel 304H plates in demanding environments.

Thus, this valuable data on the strength, ductility, and resilience of stainless steel 304H pipes is crucial for ensuring reliability and longevity.

Physical Properties of Stainless Steel 304H Plates

The table provides information on Stainless Steel 17-7PH pipes physical properties.

Thus, this table provides valuable insights into the physical properties of these plates, highlighting their suitability. 

Advantages of Stainless Steel 304H Plates

These are flexible pipes which offer numerous benefits for various industrial applications, which are as follows:

• High-Temperature Strength: Stainless steel 304H plates are designed to maintain excellent strength at elevated temperatures, making them ideal for high-heat applications such as boilers and heat exchangers.
• Corrosion Resistance: Stainless steel 304H plates offer outstanding resistance to corrosion, including pitting and crevice corrosion, which is crucial for long-term durability in harsh environments.
• Increased Carbon Content: The higher carbon content in stainless steel 304H plates enhances their strength and hardness, particularly at temperatures above 800°F (427°C), without significantly affecting their corrosion resistance.
• Oxidation Resistance: Stainless steel 304H plates provide excellent resistance to oxidation, even in intermittent service up to 1600°F (871°C) and continuous service up to 1690°F (920°C), ensuring reliable performance in high-temperature conditions.
• Good Formability: Stainless steel 304H plates retain good formability, allowing them to be easily fabricated into various shapes and components without cracking or losing strength.
• Weldability: Stainless steel 304H plates exhibit good weldability, enabling efficient and robust welding processes without needing post-weld annealing, which is beneficial in construction and manufacturing.
• Versatility: Stainless steel 304H plates are suitable for various applications, including pressure vessels, heat exchangers, and industrial boilers, thanks to their combined high strength and corrosion resistance properties.
• Durability: The robust nature of stainless steel 304H plates ensures long-lasting performance and reduces the need for frequent maintenance or replacement, contributing to lower lifecycle costs.
• Standards Compliance: Stainless steel 304H plates comply with various international standards and specifications, ensuring they meet critical applications' rigorous quality and performance requirements.
• Cost-Effective: Despite Stainless steel 304H plates' enhanced properties, stainless steel 304H plates remain cost-effective compared to other high-alloy steels, offering a balance of performance and affordability.

Stainless steel 304H Plates offer several advantages that make them suitable for industrial and commercial piping applications.

Common Applications of Stainless Steel 304H Plates

Due to their excellent features, stainless Steel 304H plates are preferred in various industrial applications. Some of the main applications include.

• Chemical Processing: Stainless steel 304H plates are used in the chemical processing industries to construct vessels, tanks and pipelines that handle corrosive chemicals, acids, and solvents.
• Heat Exchangers: Stainless steel 304H plates are common components of heat exchangers within the HVAC, refrigeration, and chemical processing industries, where their corrosion resistance enables effective heat transfer.
• Industrial Boilers: They can be used to build industrial boilers or pressure vessels that withstand high temperatures and pressures without risk of corrosion or distortion over time.
• Oil/Gas Pipelines: Stainless steel 304H plates are used in oil/gas pipelines because they can withstand hostile environmental conditions when refined products, crude oil or natural gas are transported through them.
• Power Generation: The materials also form part of power generation facilities, serving as raw material for steam turbines, condensers and piping systems operating at high temperatures and pressures.
• Food Processing Equipment: They use such plates in tanks, conveyors and piping systems for food processing equipment that requires cleanliness, corrosion resistance, and adherence to sanitary requirements.

Stainless steel 304H plates find application across various industries due to their valuable features, which make them versatile.