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Grade 304 is the most commonly used stainless steel. It is an austenitic, corrosion-resistant steel with excellent strength, toughness, fabrication characteristics and weldability. The low carbon version, 304L, may be required for full corrosion resistance when thicker sections are welded.
Type 316 stainless steel is an austenitic grade with added molybdenum. The alloy offers improved corrosion resistance when compared with Type 304, particularly in chloride environments.
ASTM A36 steel plate is one of the most common grades of steel used in structural applications. This mild carbon steel grade contains chemical alloys that give it properties such as machinability, ductility, and strength that are ideal for use in constructing a variety of structures.
Galvanized steel sheet is standard steel that is coated in zinc to provide enhanced corrosion resistance. The galvanized protective coating protects the iron steel substrate from corrosion due to moisture, saturated environmental conditions, or ambient humidity.
Niobium Plate is a flat metal material primarily composed of niobium (Nb) metal, manufactured through smelting, forging, and rolling. Niobium is a rare, high-melting-point metal whose unique physical and chemical properties make it irreplaceable in numerous high-end industrial sectors.
Inconel alloy plate refers to a sheet product made from this alloy through a specific processing technique. Its excellent heat resistance, corrosion resistance, and high strength make it widely used in extreme working conditions in aerospace, energy, chemical, and other industries.
Incoloy is a representative brand of Ni-Cr-Fe-based high-temperature alloys. Its core design concept is to maintain excellent mechanical properties and stability in harsh environments such as high temperature, corrosion, and oxidation. It is different from the Ni-Cu-based Monel alloy and also different from the Inconel alloy with a higher Ni content (usually >70%). The Ni content of Incoloy is usually 30%-50%, and the Fe content accounts for a higher proportion (20%-50%), combining cost advantages and comprehensive performance.
Monel Alloy Plate is a nickel-copper corrosion-resistant alloy plate based on Ni and Cu. It is widely used in extreme environments due to its excellent comprehensive properties (corrosion resistance, wear resistance, and high strength).
Hastelloy alloy plate is made of this alloy through precision processing and has excellent corrosion resistance in extreme environments such as strong acids, strong alkalis, and high temperatures. It is a benchmark for corrosion-resistant materials in industries such as chemical, environmental, and marine engineering.
Pure nickel alloy plate is made from a nickel matrix (typically ≥99.0% nickel content, with high-purity grades exceeding 99.9%), with small amounts (or none) of trace elements such as carbon, silicon, and manganese. This plate differs from nickel-based alloys such as Inconel and Monel, which, despite their high nickel content, require alloying elements such as chromium and copper to achieve their specific properties. Its core advantages stem from nickel's inherent properties: excellent corrosion resistance, electrical and thermal conductivity, and low-temperature toughness, while also offering good machinability and weldability.
Carbon and low alloy structural steel plates
Carbon structural steel plates and low-alloy structural steel plates are the two most widely used structural steel plates in the industrial sector. They are primarily used to manufacture mechanical components that bear or transmit loads, and engineering structures (such as bridges, buildings, and ships). Their core characteristics are their combined structural load-bearing capacity and ease of processing, with costs tailored to the needs of different scenarios.
Bridge steel plates are high-strength, high-toughness, weather-resistant special steel plates specially used to build the main structures of various bridges (main beams, bridge decks, piers, connecting plates, etc.), including highway, railway, cross-sea/cross-river bridges, etc. They belong to the core category of engineering structural steel and must meet the strict requirements of bridges in their long-term service life, such as bearing dynamic loads (vehicle and train collisions), complex environments (wind and rain, corrosion, temperature changes), and structural safety redundancy.
Wear-resistant steel plate is a specialty steel plate that utilizes specialized material composition, rolling processes, or surface treatments to significantly enhance both surface and overall wear resistance. Its core function is to extend equipment life and reduce maintenance costs under high-wear conditions, such as material impact, sliding friction, and particle erosion. Wear-resistant steel plate is not made from a single material but rather a diverse system of steel plates suitable for a variety of applications.
Die Steel Plate is a type of special steel plate used specifically for manufacturing various types of molds (such as stamping molds, injection molds, forging molds, etc.). Its core function is to meet the mold's key performance requirements such as hardness, wear resistance, toughness, and corrosion resistance during the forming process through specific composition design and heat treatment process, ensuring that the mold can stably produce high-precision, high-quality industrial parts or products in the long term.
Steel plates for building structures
Structural steel plates are specialized steel plates used in construction projects to bear loads, transmit forces, or resist external forces (such as earthquakes and wind loads). They are the core material of building structures such as frames, trusses, shear walls, and long-span roofs. Unlike ordinary steel plates, their performance indicators (such as strength, toughness, and weldability) are specifically designed to fully meet the mechanical requirements and construction characteristics of building structures, thereby ensuring the overall safety, stability, and durability of the building.
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