EN 10210 pipes are widely used in various industries for their excellent strength, durability, and versatility. These hot-finished structural hollow sections are manufactured to meet specific European standards, ensuring consistent quality and performance. One of the most common questions about EN 10210 pipes is regarding their size specifications. This comprehensive guide will explore the various dimensions, including their outer diameter, thickness, and length. Understanding these specifications is crucial for engineers, contractors, and project managers when selecting the right pipes for their specific applications.
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Outer Diameter:
The outer diameter of EN 10210 pipes ranges from 3 inches (88.9mm) to 80 inches (2032mm), offering a wide variety of options to suit different project requirements. This extensive range allows for flexibility in design and application across various industries, from construction to oil and gas.
The smaller diameter pipes, typically ranging from 3 inches to 12 inches (88.9mm to 323.9mm), are commonly used in structural applications such as building frames, scaffolding, and light industrial equipment. These pipes offer a good balance between strength and weight, making them ideal for projects where material efficiency is crucial.
Medium-sized pipes, with diameters from 14 inches to 24 inches (355.6mm to 610mm), are often employed in heavy-duty structural applications, such as bridge construction, large-scale industrial frameworks, and offshore platforms. These pipes provide substantial load-bearing capacity while maintaining a reasonable weight-to-strength ratio.
The larger diameter pipes, ranging from 26 inches to 80 inches (660.4mm to 2032mm), are typically used in specialized applications such as large-diameter pipelines, piling for deep foundations, and column structures for skyscrapers. These pipes offer exceptional strength and stability, capable of withstanding immense loads and pressures.
It is notable that specific widths in this variety are unlikely to be easily accessible in regular quantities. Within this spectrum, particular manufacturers could offer unique dimensions to suit specific project needs. It is recommended to verify with vendors or producers before choosing EN 10210 pipes for the purpose of finding out about the accessibility of particular dimensions and any corresponding lead times for non-standard sizes.
Thickness:
The thickness of EN 10210 pipes is another critical factor in determining their suitability for specific applications. The thickness range is typically expressed in terms of schedule (SCH) numbers, which correspond to specific wall thicknesses. For EN 10210 pipes, the thickness range generally spans from SCH10 to SCH160, which translates to approximately 6.35mm to 59.54mm.
SCH10 pipes, with a thickness of around 6.35mm, are the thinnest in this range. These pipes are suitable for low-pressure applications and situations where weight reduction is a priority. They are often used in light-duty structural applications, ventilation systems, and some types of fluid transport.
As we move up the schedule numbers, the wall thickness increases, providing greater strength and pressure resistance. SCH40 and SCH80 are common intermediate thicknesses, widely used in various industrial applications. SCH40 pipes, with thicknesses ranging from about 7.11mm to 12.7mm (depending on the diameter), offer a good balance between strength and cost-effectiveness. They are frequently used in general-purpose piping systems and medium-duty structural applications.
SCH80 pipes, with thicknesses ranging from approximately 10.97mm to 18.26mm, provide enhanced strength and pressure resistance. These pipes are often employed in high-pressure systems, chemical processing plants, and heavy-duty structural applications where additional strength is required.
At the upper end of the range, SCH160 pipes offer the greatest wall thickness, reaching up to 59.54mm for larger diameters. These extremely thick-walled pipes are used in specialized applications that demand exceptional strength and pressure resistance, such as high-pressure hydraulic systems, deep-sea pipelines, and critical load-bearing structures in extreme environments.
It's important to note that the actual wall thickness for a given schedule number can vary depending on the pipe's outer diameter. Engineers and project managers should consult relevant standards or manufacturer specifications to determine the exact wall thickness for a specific combination of diameter and schedule.
Length:
The length of EN 10210 pipes typically ranges from 6 meters to 18 meters. This range offers flexibility in transportation, handling, and installation while still providing substantial continuous lengths for various applications.
The 6-meter length is a standard option that balances ease of transportation with minimizing the number of joints required in a given application. These shorter lengths are particularly useful in projects with space constraints or where frequent changes in direction are necessary.
Longer pipes, up to 18 meters, are beneficial in applications where minimizing joints is crucial, such as in high-pressure systems or where structural integrity is paramount. These longer lengths can also contribute to faster installation times and reduced labor costs in large-scale projects.
It's worth noting that while the 6m to 18m range is standard, some manufacturers may offer custom lengths to meet specific project requirements. This flexibility can be particularly valuable in specialized applications or when working with unique architectural designs.
When considering the length of EN 10210 pipes, it's essential to factor in transportation logistics, on-site handling capabilities, and any relevant local regulations that may impact the maximum transportable length.
EN 10210 Pipe For Sale:
EN 10210 pipes are widely available from various manufacturers and suppliers worldwide. When looking to purchase these pipes, it's crucial to work with reputable suppliers who can ensure compliance with the EN 10210 standard and provide the necessary documentation and certifications.
One such manufacturer is LONGMA GROUP, a company with extensive experience in producing high-quality steel products, including EN 10210 pipes. With over 300 employees, including more than 60 technical personnel, LONGMA GROUP possesses the expertise and resources to deliver EN 10210 pipes that meet stringent industry standards.
LONGMA GROUP's independent equipment research team ensures that their manufacturing processes remain at the cutting edge of technology, producing consistent, high-quality products across the full range of sizes specified in the EN 10210 standard. Their technical expertise allows them to offer guidance on selecting the most appropriate pipe specifications for specific project requirements.
For those in the market for EN 10210 pipes, LONGMA GROUP welcomes inquiries at info@longma-group.com. Their team can provide detailed information on available sizes, custom options, and technical specifications to ensure that customers receive the right products for their needs.
