SGV410, SGV450, and SGV480 are high-quality pressure vessel steel plates, widely used in various industrial applications that require high strength and corrosion resistance. Let's explore the key features of each grade.
SGV410 SGV410 is a high-tensile pressure vessel steel plate, characterized by its excellent mechanical properties and exceptional weldability. The chemical composition of SGV410 ensures high resistance to atmospheric corrosion, making it suitable for outdoor applications. It offers good impact toughness at low temperatures, making it suitable for cryogenic applications. The standard thickness of SGV410 ranges from 6mm to 100mm. Applications SGV410 is commonly used in the manufacturing of pressure vessels, reactors, and storage tanks in the chemical, petrochemical, and energy industries. It is also suitable for the production of offshore platforms, ships, and other marine structures that require high corrosion resistance. Supply Case A leading manufacturer of pressure vessels has recently utilized SGV410 steel plates to construct a large-scale chemical reactor. The plates were supplied in the annealed state, ensuring ease of processing and excellent weldability. The resulting reactor exhibited excellent corrosion resistance and mechanical strength, meeting the stringent safety requirements of the customer. SGV450 SGV450 is a high-strength pressure vessel steel plate, offering superior tensile strength and impact toughness. It is widely used in the oil and gas industry for the construction of pipelines, storage tanks, and offshore structures. The chemical composition of SGV450 ensures exceptional resistance to both atmospheric and underwater corrosion. The standard thickness ranges from 6mm to 150mm. Applications SGV450 is commonly used in the offshore oil and gas industry for the construction of platforms, risers, and other critical components that require high strength and corrosion resistance. It is also suitable for the production of pressure vessels and reactors in the chemical and petrochemical industries. Supply Case A leading oil and gas company has utilized SGV450 steel plates to construct an offshore platform in the Gulf of Mexico. The plates were supplied in the quenched and tempered state, ensuring maximum strength and toughness. The platform has withstood extreme weather conditions and operational loads, providing reliable service for many years. SGV480 SGV480 is a high-strength, corrosion-resistant pressure vessel steel plate that offers superior mechanical properties and exceptional weldability. It is widely used in the construction of pipelines, storage tanks, and offshore structures in the oil and gas industry. The chemical composition of SGV480 ensures exceptional resistance to both atmospheric and underwater corrosion. The standard thickness ranges from 6mm to 150mm. Applications SGV480 is commonly used in the offshore oil and gas industry for the construction of platforms, risers, and other critical components that require high strength and corrosion resistance. It is also suitable for the production of pressure vessels and reactors in the chemical and petrochemical industries. Additionally, SGV480 is often used in the construction of large-scale industrial facilities that require high-quality materials for longevity and safety. EN10025-2 S355K2 alloy structural steel plate is a high-quality steel product that has been widely used in various engineering fields. It is made of austenite steel and has a chemical composition that ensures excellent mechanical properties.
The chemical composition of EN10025-2 S355K2 alloy structural steel plate is as follows: * Carbon (C): ≤ 0.22% * Manganese (Mn): ≤ 1.65% * Phosphorus (P): ≤ 0.025% * Sulfur (S): ≤ 0.025% * Aluminum (Al): ≥ 0.015% * Titanium (Ti): ≤ 0.20% * Nickel (Ni): ≤ 0.60% * Copper (Cu): ≤ 0.30% * Chromium (Cr): ≤ 0.35% * Molybdenum (Mo): ≤ 0.10% The mechanical properties of EN10025-2 S355K2 alloy structural steel plate are excellent, including high strength, good toughness, and good impact resistance. It can withstand high temperatures and corrosion, and has good weldability and formability. The heat treatment state of EN10025-2 S355K2 alloy structural steel plate is usually annealed or normalized. Annealing treatment can fully restore the塑性 of the steel, and improve the plasticity and toughness of the steel. Normalization treatment can increase the屈服 strength and tensile strength of the steel, but reduce its plasticity and toughness. Therefore, the heat treatment state should be selected according to the specific application requirements of the steel. EN10025-2 S355K2 alloy structural steel plate has a wide range of applications, and is commonly used in the manufacturing of various types of machinery, equipment, structures and other parts that require high strength, toughness and corrosion resistance. It can be used in various industries such as automobiles, railways, bridges, buildings, petroleum, chemical industry, power plants, shipbuilding, and more. For example, in the automotive industry, EN10025-2 S355K2 alloy structural steel plate can be used to manufacture automobile body parts, chassis parts, engine parts and other components that require high strength and toughness to ensure the safety and durability of the vehicle. In the construction industry, it can be used to manufacture beams, columns, plates, and other structural components to improve the strength and durability of the structure. In addition, it can also be used in the manufacture of pressure vessels, chemical reactors, pipelines and other equipment that require high corrosion resistance and pressure resistance. In terms of supply, EN10025-2 S355K2 alloy structural steel plate is widely available from steel mills and metal suppliers around the world. Buyers can purchase it through direct contact with steel mills or metal suppliers, or through online steel trading platforms or metal marketplaces. When purchasing EN10025-2 S355K2 alloy structural steel plate, it is important to check the quality certificate and ensure that it meets the required mechanical properties and other specifications before purchase. EN10025 S355J2 Z35 structural steel plate is a high-strength steel plate that is widely used in various engineering applications due to its excellent mechanical properties. The chemical composition of this steel plate meets the European standard EN10025, and it is characterized by its low carbon content and addition of alloying elements such as Mn, Si, and P.
The mechanical properties of EN10025 S355J2 Z35 steel plate are excellent, with a yield strength of ≥355 MPa and tensile strength of ≥490-620 MPa. It also exhibits good toughness and impact resistance, making it suitable for use in structures that require high strength and durability. The steel plate is available in a variety of thicknesses and widths, and it can be cut to size as per the specific requirements of the application. The plate is produced in accordance with the relevant European standards and undergoes rigorous quality control to ensure consistent quality. The main application scenarios for EN10025 S355J2 Z35 structural steel plate include the construction of bridges, buildings, oil and gas pipelines, power plants, and other industrial facilities. The plate is also suitable for use in shipbuilding, offshore platforms, and other marine applications due to its good corrosion resistance and weldability. To ensure the longevity and durability of the steel plate, it is essential to follow proper heat treatment procedures. The plate undergoes quenching and tempering to achieve the desired mechanical properties. It is also important to follow good welding practices to minimize any potential weak spots in the material. There are numerous supply cases of EN10025 S355J2 Z35 structural steel plate. For example, it is often used in the construction of bridges, where it is essential to have a material that can withstand high loads and bending moments while providing good fatigue resistance. In another example, the steel plate is used in the construction of offshore platforms, where it must be able to withstand harsh marine environments and resist corrosion. In conclusion, EN10025 S355J2 Z35 structural steel plate is a high-quality material that offers excellent mechanical properties and durability. It is widely used in various engineering applications due to its low carbon content and addition of alloying elements, which provide improved strength and toughness. Proper heat treatment procedures and welding practices are essential to ensure the longevity and reliability of this steel plate. SA516Gr415, a versatile steel plate, stands out for its exceptional chemical composition, mechanical properties, and a range of applications. Developed for diverse industrial needs, this grade offers a unique combination of strength and durability.
Chemical Composition The primary alloying elements in SA516Gr415 steel plate include carbon, manganese, phosphorus, sulfur, silicon, and vanadium. The precise chemical composition is as follows: Carbon (C): ≤0.30% Manganese (Mn): ≤0.70% Phosphorus (P): ≤0.035% Sulfur (S): ≤0.035% Silicon (Si): ≤0.40% Vanadium (V): 0.015% - 0.060% Mechanical Property SA516Gr415 steel plate exhibits excellent mechanical properties, making it suitable for a wide range of applications. It offers a combination of high strength, ductility, and fatigue resistance, making it an ideal material for demanding applications. The yield strength and tensile strength are typically in the ranges of 60 ksi and 80 ksi, respectively. Heat Treatment SA516Gr415 steel plate is typically supplied in the hot-rolled or hot-dipped galvanized condition. However, other surface finishes and heat treatments are available upon request. Impact Test The low-temperature impact resistance of SA516Gr415 steel plate is crucial for its use in cryogenic applications or in regions with cold climates. The plate undergoes rigorous low-temperature impact testing to ensure its suitability for such conditions. Typical impact temperatures range from -46°F to -173°F. Main Application The diverse applications of SA516Gr415 steel plate are attributed to its unique properties. It is widely used in the manufacturing of pressure vessels, storage tanks, offshore platforms, bridges, and other structural components that require exceptional strength and durability. The plate is also suitable for use in pipelines, especially in cryogenic applications. TJC’s Cases TJC has supplied SA516Gr415 steel plate to numerous projects worldwide, including a large-scale offshore platform and a cryogenic storage tank. The company offers a range of value-added services, including custom cutting and edge processing, to meet specific project requirements. TJC ensures the quality of the steel plate through rigorous testing and certification. SA516Gr415 steel plate is a high-performance material that combines exceptional strength with exceptional durability. Its adaptability to various applications makes it a go-to choice for engineers and designers across industries. With its robust chemical composition and mechanical properties, it offers unparalleled performance in even the most demanding conditions. The EN10028-4 X8Ni9 steel plate is a high-quality alloy steel widely used in the manufacturing of pressure vessels. It is a grade of steel that offers exceptional strength and corrosion resistance, making it an excellent choice for a range of demanding applications.
Chemical Composition The EN10028-4 X8Ni9 steel plate is composed of various alloying elements, including iron (Fe), carbon (C), nickel (Ni), and molybdenum (Mo). The exact chemical composition of the steel meets European standards and is essential for achieving the desired mechanical properties. The chemical composition of EN10028-4 X8Ni9 steel is controlled within precise limits to ensure consistent quality and performance. Mechanical Properties The EN10028-4 X8Ni9 steel plate exhibits excellent mechanical properties, including high tensile strength, yield strength, and impact resistance. It offers good ductility and formability, making it suitable for a range of shaping and welding processes. The mechanical properties of EN10028-4 X8Ni9 steel are optimized through precise alloying and heat treatment processes. Heat Treatment State The heat treatment state of EN10028-4 X8Ni9 steel plate is crucial for achieving the desired mechanical properties. The steel undergoes a controlled heating and cooling process to achieve the desired microstructure and properties. The heat treatment process also helps to improve the corrosion resistance and toughness of the steel. Low-Temperature Impact Testing EN10028-4 X8Ni9 steel plate undergoes low-temperature impact testing to assess its performance at low temperatures. The testing ensures that the steel retains its impact resistance and ductility even at cryogenic temperatures. This makes it suitable for use in extreme cold environments where other steels may fail. Key Application Scenarios The EN10028-4 X8Ni9 steel plate is primarily used in the manufacturing of pressure vessels, such as boilers, reactors, and storage tanks. It is also suitable for use in other high-pressure and corrosive environments, including piping systems, offshore platforms, and chemical processing plants. The exceptional corrosion resistance and mechanical properties of EN10028-4 X8Ni9 steel make it an excellent choice for these demanding applications. TJC Supply Case To meet the growing demand for EN10028-4 X8Ni9 steel plate, TJC, a leading manufacturer of high-quality steel products, has begun supplying this grade of steel. TJC ensures the consistent quality and performance of EN10028-4 X8Ni9 steel plate through rigorous quality control measures. The company offers a range of value-added services, including custom cutting and processing, to meet the specific needs of its customers. TJC has a strong reputation for supplying high-quality materials that meet international standards, making it a trusted partner for customers worldwide. Introduction:
EN10083-3 25CrMo4 steel plate is a high-performance material, primarily used in the manufacturing of pressure vessels that operate at elevated temperatures. This grade of steel offers exceptional mechanical properties, making it suitable for a range of demanding applications. The chemical composition, mechanical properties, heat treatment, low-temperature impact testing, and key application areas of this steel grade are discussed in detail below. Chemical Composition: EN10083-3 25CrMo4 steel plate is composed of various alloying elements, including but not limited to carbon (C), silicon (Si), manganese (Mn), chromium (Cr), molybdenum (Mo), and nickel (Ni). The exact chemical composition of the steel meets the EN10083-3 standard, ensuring its suitability for high-temperature pressure vessel applications. Mechanical Properties: The mechanical properties of EN10083-3 25CrMo4 steel plate are highly dependent on its chemical composition and heat treatment. The material exhibits good tensile strength, yield strength, and ductility. It also has excellent fatigue resistance and creep resistance, making it suitable for long-term use at elevated temperatures. Heat Treatment: Heat treatment is essential to achieve the desired mechanical properties of EN10083-3 25CrMo4 steel plate. Typical heat treatment processes include annealing, quenching, and tempering. The annealing process is used to remove stress and improve the ductility of the steel. Quenching is carried out to achieve maximum hardness, and tempering is used to optimize the balance between hardness and toughness. Low-Temperature Impact Testing: EN10083-3 25CrMo4 steel plate undergoes low-temperature impact testing to assess its resistance to brittle fracture at reduced temperatures. The test is crucial to ensure the material's suitability for use in cryogenic applications or in environments where temperature excursions are common. The test results provide valuable information on the material's toughness and ability to withstand low-temperature impact loads. Key Application Areas: EN10083-3 25CrMo4 steel plate is primarily used in the manufacturing of pressure vessels, reactors, and other high-temperature equipment in the petrochemical, power generation, and aerospace industries. It is also suitable for use in other applications that require exceptional mechanical properties and resistance to high-temperature environments. TJC Supply Case: To demonstrate the application of EN10083-3 25CrMo4 steel plate, consider the case of a petrochemical company that required high-quality pressure vessel components for their plant operations. TJC, a leading manufacturer of steel products, was approached to supply EN10083-3 25CrMo4 steel plate that met specific thickness and dimension requirements. TJC successfully met the customer's needs by providing high-quality steel plate that underwent rigorous testing to ensure its suitability for the demanding application. This case highlights the importance of material selection and supplier reliability in meeting the demands of critical infrastructure projects. Conclusion: EN10083-3 25CrMo4 steel plate is a high-performance material that offers exceptional mechanical properties and resistance to high temperatures. Its wide range of applications in industries such as petrochemicals, power generation, and aerospace highlights its importance in meeting the demands of modern infrastructure projects. With rigorous testing and reliable suppliers like TJC, the use of EN10083-3 25CrMo4 steel plate can ensure the safety and longevity of critical equipment in high-temperature environments. EN10028-6 P460Q is a high-strength steel plate that meets European standards. It is a widely used material in various engineering and construction applications due to its exceptional mechanical properties. The chemical composition of EN10028-6 P460Q steel plate is carefully optimized to provide a balance of strength, ductility, and resistance to corrosion.
The primary alloying elements in EN10028-6 P460Q steel include carbon, manganese, silicon, and chromium. These elements contribute to the exceptional tensile strength and yield strength of the steel, which are essential for withstanding heavy loads and stresses. The chemical composition also ensures good formability and weldability, making it suitable for a wide range of fabrication and joining processes. EN10028-6 P460Q steel plate exhibits excellent mechanical properties, including a tensile strength of up to 460 MPa and a yield strength of up to 415 MPa. The material also exhibits good impact resistance and fatigue strength, making it suitable for applications where dynamic loads and stresses are encountered. The standard heat treatment for EN10028-6 P460Q steel plate is quenching and tempering to achieve the desired balance of mechanical properties. The quenching process involves heating the steel to a specific temperature range and rapidly cooling it in water or oil. This process improves the硬度of the steel and ensures that the material has a fine grain structure. The tempering process involves heating the quenched steel to a lower temperature range, which further improves its toughness and durability. EN10028-6 P460Q steel plate is commonly used in various industrial, transportation, and construction applications where high strength, fatigue resistance, and corrosion resistance are required. Some typical applications include the manufacture of pressure vessels, bridges, offshore structures, and other structural components that require high load-bearing capacity. To ensure the quality and reliability of EN10028-6 P460Q steel plate, it is essential to work with trusted suppliers who have a reputation for providing high-quality materials. TJC, as a reliable supplier of various steel products, has extensive experience in supplying EN10028-6 P460Q steel plate that meets the stringent requirements of various applications. TJC has a track record of supplying EN10028-6 P460Q steel plate to various industries, including the petrochemical, energy, and transportation sectors. We have a team of experienced metallurgists who can provide technical support and assistance in selecting the right grade of steel for specific applications. We also offer custom processing services to meet the unique needs of our clients, such as cutting, shaping, and welding services. In conclusion, EN10028-6 P460Q steel plate is a high-strength material that offers exceptional mechanical properties and corrosion resistance. It is widely used in various industrial and construction applications that require high load-bearing capacity and durability. When sourcing EN10028-6 P460Q steel plate, it is essential to work with a reliable supplier who can provide quality materials and tailored solutions to meet specific application needs. TJC is a trusted supplier of EN10028-6 P460Q steel plate with a track record of successful projects and satisfied customers. The AISI 4104 alloy structural steel plate is a high-quality material, widely used in various engineering and construction applications. This steel plate offers exceptional strength, ductility, and fatigue resistance, making it an excellent choice for a range of demanding applications. In this article, we will explore the chemical composition, mechanical properties, heat treatment status, low-temperature impact testing, main application scenarios, and TJC-related supply cases of AISI 4104 alloy structural steel plate.
Chemical Composition AISI 4104 alloy structural steel plate is composed of various chemical elements, including carbon, silicon, manganese, phosphorus, sulfur, chromium, nickel, and copper. The precise chemical composition of the steel plate is essential in determining its mechanical properties and performance characteristics. Mechanical Properties AISI 4104 alloy structural steel plate exhibits excellent mechanical properties, including high tensile strength, yield strength, and impact resistance. It has good fatigue resistance and ductility, making it suitable for a range of dynamic loading applications. The steel plate also exhibits good weldability and formability, facilitating ease of fabrication and assembly. Heat Treatment Status The AISI 4104 alloy structural steel plate is available in a hot-rolled or annealed condition. Hot-rolling involves the processing of steel at high temperatures to achieve the desired shape and properties. Annealing is a heat treatment process that improves the material's ductility and toughness by promoting recrystallization and grain growth. The choice of heat treatment depends on the specific application requirements. Low-Temperature Impact Testing AISI 4104 alloy structural steel plate undergoes low-temperature impact testing to evaluate its resistance to brittle fracture at cryogenic temperatures. The test measures the energy absorbed by the material during impact, providing an indication of its toughness and resistance to cracking at low temperatures. The AISI 4104 steel plate demonstrates good low-temperature impact resistance, making it suitable for cryogenic applications where brittle fracture is a concern. Main Application Scenarios The AISI 4104 alloy structural steel plate finds application in a wide range of engineering and construction projects. It is commonly used in the manufacturing of pressure vessels, storage tanks, bridges, offshore platforms, and other structural components that require high strength and durability. The steel plate's exceptional fatigue resistance and weldability also make it suitable for use in the shipbuilding and transportation industries. TJC-Related Supply Cases TJC has supplied AISI 4104 alloy structural steel plate to various projects around the world. One notable example is the supply of steel plates for the construction of a large-scale offshore platform in the Gulf of Mexico. The plates were precision cut and bent to exact specifications using state-of-the-art equipment. TJC's ability to meet strict quality standards and provide reliable delivery on time was instrumental in ensuring the successful completion of this high-profile project. In conclusion, AISI 4104 alloy structural steel plate offers a combination of exceptional strength, ductility, fatigue resistance, and weldability, making it an ideal choice for a range of demanding applications. With its robust mechanical properties and low-temperature impact resistance, it has found widespread use in critical engineering projects worldwide. TJC's expertise in supplying high-quality AISI 4104 steel plates has contributed to the successful execution of numerous complex projects. EN10028 13CrMo4-5 is a low-temperature pressure vessel steel plate that has excellent mechanical properties and corrosion resistance. It is widely used in the manufacture of cryogenic tanks, liquefied gas storage tanks, and other pressure vessels.
The chemical composition of EN10028 13CrMo4-5 steel plate meets the requirements of the standard, with carbon as its main element and a small amount of manganese, silicon, phosphorus, sulfur, chromium, molybdenum and other alloying elements. The carbon content ranges from 0.10% to 0.17%, the manganese content ranges from 0.40% to 0.90%, and the chromium and molybdenum contents are respectively 0.80% to 1.20% and 0.15% to 0.35%. These alloying elements improve the toughness, strength, and corrosion resistance of the steel plate. EN10028 13CrMo4-5 steel plate has good mechanical properties. It has a yield strength of ≥270 MPa, an ultimate tensile strength of ≥470 MPa, and a fracture toughness of ≥21 KJ/m2 at -60°C. These properties enable it to withstand cryogenic temperatures and high-pressure loads. The steel plate is usually supplied in the quenched and tempered state, which further improves its mechanical properties. Quenching and tempering are heat treatment processes that strengthen the steel by evenly distributing carbon atoms and enhancing crystal lattice distortion, thus improving its hardness and corrosion resistance. EN10028 13CrMo4-5 steel plate is widely used in the oil and gas industry, chemical industry, cryogenic engineering, and other fields. It is used to manufacture cryogenic tanks, liquefied gas storage tanks, and other pressure vessels that require low-temperature resistance and high pressure resistance. For example, it can be used to fabricate LNG storage tanks and pipelines. To ensure the quality of EN10028 13CrMo4-5 steel plate, it is essential to strictly control its chemical composition and mechanical properties during production. The steel must undergo quenching and tempering treatment to achieve the desired mechanical properties. Additionally, post-weld heat treatment should be performed to ensure the weldability and durability of the steel plate. EN10028 13CrMo4-5 steel plate has a wide range of applications due to its excellent mechanical properties, corrosion resistance, and low-temperature resistance. It is suitable for use in harsh environments where cryogenic temperatures and high-pressure loads are common, such as in oil and gas exploration, natural gas processing, liquefied natural gas (LNG) storage and transportation, etc. Its reliability and durability also make it an ideal choice for use in the manufacturing of critical equipment such as pressure vessels and pipelines. EQ70Marine Offshore Building Steel Plate is a high-quality steel grade, specifically designed for use in the challenging offshore environment. This grade of steel offers a unique combination of chemical composition, mechanical properties, and heat treatment that ensures exceptional performance under the most severe conditions.
Chemical Composition: The primary alloying elements in EQ70 steel include carbon, manganese, silicon, and chromium. These elements contribute to the overall strength and corrosion resistance of the steel. In addition, the steel may also contain other alloying elements such as nickel, copper, and molybdenum depending on the specific application requirements. Mechanical Properties: EQ70 steel offers excellent mechanical properties, making it suitable for use in offshore platforms. It exhibits high strength, tensile strength, and yield strength, providing robust support and stability in marine environments. The steel also has good impact resistance, which helps prevent brittle fracture in cold temperatures. Heat Treatment: EQ70 steel undergoes a carefully controlled heat treatment process to achieve its optimal mechanical properties. The process typically includes heating the steel to a temperature that promotes uniform crystallization, followed by rapid cooling to lock in the desired mechanical properties. This heat treatment results in a fine grain structure and improved toughness, making the steel more durable in marine environments. Applications: EQ70 steel is primarily used in the construction of offshore platforms, particularly in deepwater drilling and production operations. It is commonly employed in the structural components of platforms, such as legs, columns, and braces. The exceptional mechanical properties of EQ70 steel enable it to withstand the extreme forces and corrosive environments associated with offshore operations. Supply Case: One notable example of EQ70 steel's application is in the construction of an offshore platform for a major oil and gas company. The platform's design required high-strength steel with excellent corrosion resistance to ensure structural integrity in the challenging marine environment. EQ70 steel was chosen for its superior mechanical properties, corrosion resistance, and ability to withstand harsh conditions. The platform's structural components were fabricated using EQ70 steel and successfully installed offshore, providing many years of reliable service. In conclusion, EQ70 steel offers a unique combination of chemical composition, mechanical properties, and heat treatment that makes it an excellent choice for offshore platform construction. Its robust performance and corrosion resistance ensure the safety and longevity of offshore structures, making it a vital material for sustainable offshore development. |
nEWSFROM SCALE STEEL ARCHIVES
April 2024
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