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S275 Structural Steel Sheet Pile Hot Rolled Steel Sheet Piling
Product Detail
| Standard | GB/EN | Invoicing | By Actual Weight |
| Tolerance | None | Delivery Time | 7 ~ 15 days |
| Alloy Or Not | None | Grade | S235/S275/S355 |
| Processing Service | OEM | Place of Origin | Tinajin,China |
Steel Sheet Pile Chemical Composition
| Steel Grade | C (%) | Si (%) | Mn (%) | P (%) | S (%) | N (%) | Cu (%) |
| S275 | ≤0.21 | ≤0.35 | ≤1.50 | ≤0.035 | ≤0.035 | ≤0.012 | ≤0.55* |
Note: Copper (Cu) content applies when specified. Chemical composition may vary slightly according to section size and manufacturing process. Mill Test Certificate (MTC) is available upon request.
Steel Sheet Pile Mechanical Properties
| Steel Grade | Thickness (mm) | Yield Strength (ReH) MPa | Tensile Strength (Rm) MPa | Elongation (%) |
| S275JR | ≤ 16 | ≥ 275 | 410 – 560 | ≥ 23 |
| S275JR | 16 – 40 | ≥ 265 | 410 – 560 | ≥ 23 |
| S275JR | 40 – 63 | ≥ 255 | 410 – 560 | ≥ 21 |
| S275JR | 63 – 100 | ≥ 245 | 410 – 560 | ≥ 20 |
Note:
Mechanical properties may vary depending on section thickness and production process. All values are based on EN standard requirements. Mill Test Certificate (MTC) can be provided for each batch.
Steel Sheet Pile Size
| ection | Dimensions | Sectional Area | Mass | Moment of inertia |
Modulus of section |
|||
| Width | Height | Thickness | Pile | Wall | ||||
| w | h | t | ||||||
| mm | Mm | mm | cm2/pile | kg/m | kg/m2 | cm4/m | cm3/m | |
| ⅠA | 400 | 85 | 8 | 45.21 | 35.5 | 88.8 | 4500 | 529 |
| Ⅱ | 400 | 100 | 10.5 | 61.2 | 48 | 120 | 8740 | 874 |
| Ⅲ | 400 | 125 | 13 | 76.4 | 60 | 150 | 16800 | 1340 |
| ⅢA | 400 | 150 | 13.1 | 74.4 | 58.4 | 146 | 22800 | 1520 |
| Ⅳ | 400 | 170 | 15.5 | 97 | 76.1 | 190 | 38600 | 2270 |
| ⅤL | 500 | 200 | 24.3 | 133.8 | 105 | 210 | 63000 | 3150 |
| ⅥL | 500 | 225 | 27.6 | 153 | 120 | 240 | 86000 | 3820 |
| ⅡW | 600 | 130 | 10.3 | 78.7 | 61.8 | 103 | 13000 | 1000 |
| ⅢW | 600 | 180 | 13.4 | 104 | 81.6 | 136 | 32400 | 1800 |
| ⅣW | 600 | 210 | 18 | 135.3 | 106 | 177 | 56700 | 2700 |
| Section | Dimensions | Mass | Moment of inertia | Modulus of section | ||||
| Width | Height | Thickness | Per pile | Wall | ||||
| w | h | t | s | |||||
| mm | mm | mm | mm | kg/m | kg/m2 | cm4/m | cm3/m | |
| 750mm wide | ||||||||
| GHU 14 | 750 | 408 | 10.0 | 8.3 | 77.9 | 104 | 28 690 | 1 415 |
| GHU 16 | 750 | 411 | 11.5 | 9.3 | 86.3 | 115 | 32 860 | 1 610 |
| GHU 18 | 750 | 441 | 10.5 | 9.1 | 88.5 | 118 | 39 310 | 1 790 |
| GHU 20 | 750 | 444 | 12.0 | 10.0 | 96.9 | 129 | 44 450 | 2 010 |
| GHU 23 | 750 | 447 | 13.0 | 9.5 | 102.1 | 136 | 50 710 | 2 280 |
| GHU 25 | 750 | 450 | 14.5 | 10.2 | 110.4 | 147 | 56 250 | 2 510 |
| 600mm wide | ||||||||
| GHU 12 | 600 | 360 | 9.8 | 9.0 | 66.1 | 110 | 21 610 | 1 210 |
| GHU 12S | 600 | 360 | 10.0 | 10.0 | 71.0 | 118 | 22 670 | 1 270 |
| GHU 18-1 | 600 | 430 | 10.2 | 8.4 | 72.6 | 121 | 35 960 | 1 680 |
| GHU 18 | 600 | 430 | 11.2 | 9.0 | 76.9 | 128 | 38 660 | 1 810 |
| GHU 18+1 | 600 | 430 | 12.2 | 9.5 | 81.1 | 135 | 41 330 | 1 930 |
| GHU 22-1 | 600 | 450 | 11.1 | 9.0 | 81.9 | 137 | 46 390 | 2 070 |
| GHU 22 | 600 | 450 | 12.1 | 9.5 | 86.1 | 144 | 49 470 | 2 210 |
| GHU 22+1 | 600 | 450 | 13.1 | 10.0 | 90.4 | 151 | 52 520 | 2 345 |
| GHU 28-1 | 600 | 452 | 14.2 | 9.7 | 97.4 | 162 | 60 590 | 2 690 |
| GHU 28 | 600 | 454 | 15.2 | 10.1 | 101.8 | 170 | 64 470 | 2 850 |
| GHU 28+1 | 600 | 456 | 16.2 | 10.5 | 106.2 | 177 | 68 390 | 3 010 |
| GHU 32-1 | 600 | 452 | 18.5 | 10.6 | 109.9 | 183 | 69 220 | 3 075 |
| GHU 32 | 600 | 452 | 19.5 | 11.0 | 114.1 | 190 | 72 330 | 3 210 |
| GHU 32+1 | 600 | 452 | 20.5 | 11.4 | 118.4 | 197 | 75 410 | 3 350 |
| 600mm and 400mm wide | ||||||||
| GHU 6N | 600 | 309 | 6.0 | 6.0 | 41.9 | 70 | 9 680 | 635 |
| GHU 7N | 600 | 310 | 6.5 | 6.4 | 44.1 | 74 | 10 460 | 685 |
| GHU 7S | 600 | 311 | 7.2 | 6.9 | 46.3 | 77 | 11 550 | 750 |
| GHU 7HWS | 600 | 312 | 7.3 | 6.9 | 47.4 | 79 | 11 630 | 755 |
| GHU 8N | 600 | 312 | 7.5 | 7.1 | 48.5 | 81 | 12 020 | 780 |
| GHU 8S | 600 | 313 | 8.0 | 7.5 | 50.8 | 85 | 12 810 | 830 |
| GHU 10N | 600 | 316 | 9.0 | 6.8 | 55.8 | 93 | 15 710 | 1000 |
| GHU 11N | 600 | 318 | 10.0 | 7.4 | 60.2 | 100 | 17 460 | 1 105 |
| GHU 12N | 600 | 320 | 11.0 | 8.0 | 64.6 | 108 | 19 230 | 1 230 |
| GHU 13N | 600 | 418 | 9.0 | 7.4 | 59.9 | 100 | 26 600 | 1 280 |
| GHU 14N | 600 | 420 | 10.0 | 8.0 | 64.3 | 107 | 29 420 | 1 410 |
| GHU 15N | 600 | 422 | 11.0 | 8.6 | 68.7 | 115 | 32 270 | 1 540 |
| GHU 16N | 600 | 430 | 10.2 | 8.4 | 72.6 | 121 | 35 960 | 1 680 |
| GHU 18N | 600 | 430 | 11.2 | 9.0 | 76.9 | 128 | 38 660 | 1 810 |
| GHU 20N | 600 | 430 | 12.2 | 9.5 | 81.1 | 135 | 41 310 | 1 930 |
| GHU 21N | 600 | 450 | 11.1 | 9.0 | 81.9 | 137 | 46 390 | 2 070 |
| GHU 22N | 600 | 450 | 12.1 | 9.5 | 86.1 | 144 | 49 470 | 2 210 |
| GHU 23N | 600 | 450 | 13.1 | 10.0 | 90.4 | 151 | 52 520 | 2 345 |
| GHU 27N | 600 | 452 | 14.2 | 9.7 | 97.4 | 162 | 60 590 | 2 690 |
| GHU 28N | 600 | 454 | 15.2 | 10.1 | 101.8 | 170 | 64 470 | 2 850 |
| GHU 30N | 600 | 456 | 16.2 | 10.5 | 106.2 | 177 | 68 390 | 3 010 |
| GHU 31N | 600 | 452 | 18.5 | 10.6 | 109.9 | 183 | 69 220 | 3 075 |
| GHU 32N | 600 | 452 | 19.5 | 11.0 | 114.1 | 190 | 72 330 | 3 210 |
| GHU 33N | 600 | 452 | 20.5 | 11.4 | 118.4 | 197 | 75 420 | 3 350 |
| GHU 16-400 | 400 | 290 | 12.7 | 9.4 | 62.0 | 155 | 22 600 | 1 570 |
| GHU 18-400 | 400 | 292 | 15.0 | 9.7 | 69.3 | 173 | 26 100 | 1 795 |
| Section | Dimensions | Mass | Moment of inertia | Modulus of section | ||||
| Width | Height | Thickness | Per pile | Wall | ||||
| w | h | t | s | |||||
| mm | mm | mm | mm | kg/m | kg/m2 | cm4/m | cm3/m | |
| GHL 600 | 600 | 150 | 9.5 | 9.5 | 56.4 | 94 | 3825 | 510 |
| GHL 600K | 600 | 150 | 10 | 10 | 59.4 | 99 | 4050 | 540 |
| GHL 601 | 600 | 310 | 7.5 | 6,4 | 46.8 | 78 | 11520 | 745 |
| GHL 602 | 600 | 310 | 8.2 | 8 | 53.4 | 89 | 12870 | 830 |
| GHL 603 | 600 | 310 | 9.7 | 8.2 | 64.8 | 108 | 18600 | 1200 |
| GHL 603K | 600 | 310 | 10 | 9 | 68.1 | 113.5 | 19220 | 1240 |
| GHL 603 10/10 | 600 | 310 | 10 | 10 | 69.6 | 116 | 19530 | 1260 |
| GHL 604 | 600 | 380 | 10 | 9 | 73.8 | 123 | 30400 | 1600 |
| GHL 605 | 600 | 420 | 13 | 9.2 | 85.5 | 142.5 | 43890 | 2090 |
| GHL 606 | 600 | 435 | 14.4 | 9.2 | 94.2 | 157 | 54375 | 2500 |
| GHL 607 | 600 | 452 | 19 | 10.6 | 114 | 190 | 72320 | 3200 |
| GHL 703 | 700 | 400 | 9.5 | 8 | 67.5 | 96.4 | 24200 | 1210 |
| GHL 716 | 700 | 440 | 10.2 | 9.5 | 79.9 | 114.2 | 35200 | 1600 |
| GHL 720 | 750 | 450 | 12 | 10 | 96.4 | 128.5 | 45000 | 2000 |
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Steel Sheet Pile Locking and waterproof performance
Design: Interlocking Steel Sheet Pile, permeability ≤1×10⁻⁷ cm/s
Americas: Complies with ASTM D5887 Standard for a Liner To Minimize Seepage Beneath Drums.
Southeast Asia: Groundwater-seepage proof for tropical rainy seasons
Steel Sheet Pile Production process
1. Raw Material Heating
-
The Process: Steel semi-finished products, usually heavy blooms or rectangular slabs, are loaded into a walking-beam reheating furnace.
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The Goal: The steel is uniformly heated to an optimal rolling temperature (typically between 1100°C and 1250°C) to maximize its malleability and ductility for shaping.
2. Rough Rolling & Breakdown
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The Process: The incandescent steel slab passes through a heavy breakdown mill or roughing stand (often a reversible rolling mill) multiple times.
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The Goal: The initial thick slab is progressively reduced in cross-section and elongated into a preliminary profile, often referred to as a "dog-bone" or beam-blank shape.
3. Universal Finishing Rolling
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The Process: The pre-shaped steel passes through a sophisticated universal rolling mill train equipped with both horizontal and vertical rollers that apply pressure simultaneously.
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The Goal: This is the critical stage where the final profile geometry—such as U-shape, Z-shape, or Flat/Straight web type—is formed with precise dimensional accuracy, including the highly critical, tight-tolerance interlocks on both edges.
4. Cooling and Straightening
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The Process: The continuous hot-rolled steel profile is sectioned by hot saws and transferred to a cooling bed. Once cooled to ambient temperature, the sections are processed through a multi-roller straightening machine.
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The Goal: Cooling stabilizes the micro-metallurgical structure, while the cold-straightening process eliminates any thermal warping, twisting, or bending to ensure perfectly straight profiles.
5. Cutting, Inspection & Finishing
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The Process: The straightened sheet piles are cold-sawed to exact customer-specified lengths. Quality control teams perform rigorous ultrasonic and dimensional testing, particularly on the interlock tolerances and surface quality.
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The Goal: To ensure seamless clutching performance during on-site driving. Optional post-processing—such as drilling lifting holes, applying anti-corrosion coatings, or injecting interlock sealants—is completed here prior to bundling and shipping.
Steel Sheet Pile Surface
Americas:The HDG coating is performed to meet the requirements of ASTM A123/ISO 1461, with a minimum thickness of zinc coating ≥ 85 μm for good corrosion resistance and long service life. A 3PE coating system is also optional for better protection in aggressive environments like marine and underground. All surface processing is RoHS compliant and meets international environmental and export standards.
Southeast Asia: Hot-dip galvanizing of ≥100 μm thickness, together with the two-layer epoxy coal tar system, provides excellent long-term corrosion protection and salt spray performance of more than 5,000 hours. Therefore, the product is particularly applicable to tropical marine and strong corrosive environments and can provide a long service life for the user in applications in seaside and sea areas.
APPLICATION
1.Earth Retention & Cofferdams
The Function: Creating temporary or permanent deep excavation walls.
The Application: Widely used to build watertight cofferdams in rivers and harbors, allowing engineers to pump out water and safely construct bridge piers, dams, and underwater foundations.
2. Marine & Port Infrastructure
The Function: Constructing robust waterfront barriers.
The Application: Installed as permanent quay walls, bulkheads, and retaining barriers in ports, harbors, and marinas to withstand heavy lateral earth pressure and wave impact while preventing coastal erosion.
3. Foundation and Basement Walls
The Function: Serving as structural load-bearing and retaining elements for buildings.
The Application: Driven into the ground for high-rise building foundations, underground parking garages, and deep basements to stabilize the surrounding soil and block groundwater seepage during and after construction.
4. Infrastructure & Transport Protection
The Function: Shoring up earth structures along transit lines.
The Application: Used for building bridge abutments, tunnel approaches, and railway/highway retaining walls to prevent landslides, stabilize slopes, and support steep grade changes.
5. Environmental & Flood Control
The Function: Controlling water flow and containing hazardous materials.
The Application: Deployed in flood walls, levee reinforcement, and riverbank protection to prevent flooding. They are also driven deep around landfills and contaminated sites as cutoff walls to block toxic groundwater migration.
Why Choose Royal Steel Group for Steel Sheet Piles
1. Strong Manufacturing Capability
Royal Steel Group operates advanced production lines for U Type and Z Type Steel Sheet Piles, ensuring stable output, precise interlocks, and consistent quality for large-scale infrastructure projects.
2. Wide Product Range & Customization
We supply a full range of sheet piles with different grades, lengths, thicknesses, and corrosion protection options, tailored for ports, bridges, cofferdams, and foundation works.
3. Fast Production & On-Time Delivery
With stable production capacity and efficient scheduling, we support urgent project requirements and ensure timely global shipments.
4. Proven Global Project Experience
Our steel sheet piles are widely used in marine engineering, infrastructure development, flood control systems, and industrial construction across Asia, the Middle East, Africa, and the Americas.
5. One-Stop Steel Solution Supplier
Beyond sheet piles, we also supply steel pipes, H beams, steel structures, and related products, offering integrated procurement solutions for international clients.
PACKAGING AND SHIPPING
Steel sheet piles are securely packaged with steel straps and reinforced bundles to ensure stability during long-distance transportation. Each bundle is equipped with protective end caps and waterproof wrapping to prevent damage, moisture, and surface corrosion.
Standard export packaging includes seaworthy wooden pallets or steel frames, suitable for container loading or bulk shipment. All packages are clearly labeled with product specifications for easy identification and handling.
We provide flexible shipping solutions via sea freight, ensuring safe and timely delivery to global ports, with full support for export documentation and logistics coordination.
FAQ
Q1: Can you provide custom sizes and lengths?
A: Yes, we offer customized widths, thicknesses, and lengths based on drawings or engineering specifications.
Q2: What is the typical delivery time?
A: Standard products are usually ready in 7–15 days, while customized orders depend on quantity and specifications.
Q3: What applications are sheet piles suitable for?
A: They are widely used in retaining walls, marine engineering, flood control, cofferdams, and foundation support.
Q4: Do you provide mill test certificates (MTC)?
A: Yes, we can supply full MTC, SGS, BV, and third-party inspection certificates upon request.
Q5: What is your loading and packaging method?
A: Sheet piles are bundled with steel straps and loaded in containers or bulk vessels with proper protection for export shipping.












