All categories
Featured selections
Trade Assurance
Buyer Central
Help Center
Get the app
Become a supplier
(5357 products available)
Ready to Ship
Ready to ShipSteel plates have different types, and each has distinctive features that make it suitable for specific applications. Here are the most common types of steel plate 35mm.
These are corrosion-resistant steel plates. They contain chromium, which forms a protective layer on the steel, preventing oxidation and rusting. This property makes stainless steel plates ideal for use in environments that exposure to moisture, chemicals, and extreme temperatures. Stainless steel 35mm plate is widely used in food processing, marine applications, and pharmaceuticals.
Carbon steel plates are made by combining carbon and iron elements. Carbon steel 35mm plates are strong and durable, making them ideal for heavy construction and mining equipment. High carbon content results in increased hardness and wear resistance, thus making these plates ideal for machinery and structure exposed to high wear. Carbon steel plates are also known for their affordability and are widely used in structural applications.
These steel plates have added elements like manganese, nickel, and silicon, which enhance particular properties such as strength, toughness, and resistance to fatigue. Alloy steel 35mm plates are common in the aerospace industry to manufacture components that need to withstand extreme heat and stress. Besides, these plates are widely used in the automotive industry for gears and axles due to their improved mechanical properties.
Tool steel plates are designed to withstand hardening during high-temperature operations. These plates are ideal for manufacturing tools and dies. Common applications include the automotive industry for die-casting tools and molds.
Steel plates have different features, and each varies depending on the specific requirements of their intended use. Some of the common features include:
The main feature of steel plate is 35mm thickness. This thickness provides mechanical strength in heavy-duty applications. Besides, the thickness contributes to durability. Therefore, these plates are suitable for industries like construction and engineering where structural integrity is paramount.
Tensile strength refers to the ability of a material to resist pulling forces. Also, steel plates have high tensile strength, making them ideal for applications that require resistance to heavy loads and stress. Commonly, high tensile strength is a vital property in manufacturing parts for the automotive and aerospace industries.
Steel plates are welded and fabricated to suit various industrial needs. In addition, the ability to maintain structural integrity after welding makes these plates irreplaceable in construction, shipbuilding, and machinery manufacturing. Typically, proper welding ensures that the joints are strong enough to carry the same load as the rest of the plate.
Steel plates are either hot-rolled or cold-rolled, and each has a distinctive surface finish. Hot-rolled plates have a rougher surface and can be used when tolerances are not very critical. On the other hand, cold-rolled plates have a smoother finish and tighter tolerances, making them ideal for precise applications.
Most steel plates have been designed to specifically resist abrasion and wear. For example, alloy and tool steel plates contain elements that significantly enhance their wear resistance. As a result, these make steel plates ideal for heavy machinery parts and mining equipment.
Steel plates are widely used across various industries as they offer durability, versatility, and ease of fabrication. Here are the common applications:
Steel plates are used to manufacture parts that need to endure high stress or loads, such as gears, shafts, and heavy-duty machinery components. For instance, a steel plate 1mm 35 is used for making machine frames, providing rigidity and support.
Steel plates are used for making beams, columns, and girders for buildings and bridges. They provide the necessary strength to support large structures and hold heavy loads.
In this industry, steel plates construct the hulls of ships, ensuring they withstand water pressure and carry heavy cargoes. Also, they are used to make internal structures like machinery rooms and storage areas.
Plates are used in automobile manufacturing. For instance, they are used to construct car frames, chassis, and body panels. The strength and durability of steel ensure that vehicles can carry loads and resist impacts.
Steel plates are used to make storage tanks, pipelines, and rig structures in this industry. Also, they hold the pressure in pipelines and tanks and transport oil and gas safely. Moreover, they resist corrosion and extreme environmental conditions.
In this industry, 35mm steel plates are used to manufacture bulldozers, excavators, and mining equipment. These plates provide the necessary strength to resist wear and tear from heavy-duty operations.
These plates manufacture components like bulkheads and critical reinforcements that undergo stress during flight, such as wings and engines. Also, although lighter materials are commonly used, steel plates are applied in specific high-stress areas due to their exceptional strength.
When choosing steel plates, consider the following factors:
Choosing steel plates should be based on the material composition the target application. For example, alloy plates are ideal for structural components that require enhanced mechanical properties. In addition, tool steel is suited for manufacturing tools and dies due to its hardness and edge retention.
In applications where the steel plate is exposed to moisture or chemical environments, opt for alloy steel or stainless plates. Normally, these plates provide superior corrosion resistance. Therefore, it makes their ideal choice for marine, chemical processing, and outdoor construction.
The key properties include tensile strength, hardness, and impact resistance. These properties are essential for determining how well a steel plate will perform under loads, especially in high-stress environments. For example, alloy plates are preferred in aerospace applications due to their high tensile strength and fatigue resistance.
Consider how the steel plate will be heat-treated. Normally, some compositions respond better to quenching and tempering. This process enhances the plate's hardness and wear resistance. Moreover, this treatment is crucial for tool steel plates used in high-temperature environments.
Selecting steel plates depends on the target industry. For example, stainless plates are predominantly applied in the food and pharmaceutical industries due to their resistance to corrosion and sterilization chemicals. On the other hand, carbon plates find extensive use in construction due to their strength and cost-effectiveness.
Yes, they can rust. When exposed to moisture without protective measures like galvanization or paint. Nevertheless, specific types like stainless steel are designed to resist rust effectively.
Steel plates have numerous benefits, such as high strength, durability, resistance to wear and tear, and versatility in applications. They are used for making structures, machinery parts, and tools. In addition, they serve heavy-load supports.
There are several methods of preventing steel plates from rusting. They include applying protective coatings like paints, galvanization, and powder coating. These methods create a barrier between the steel and moisture or corrosive elements.
Yes, they are highly recyclable. Steel plates are frequently recycled into new steel products without losing their strength and quality. This property makes them an environmentally sustainable choice.
The processing of steel plates involves cutting, bending, welding, surface treatment, and quality inspection. These services ensure the plates meet the required specifications and standards for their intended industrial applications.
