ASTM A36 HEA HEB IPE H Beams I Beams for Building /H Shaped Steel Structure with (St37-2) (USt37-2) (RSt37-2) A570 Gr.A Grade

ASTM A36 HEA HEB IPE H Beams I Beams for Building /H Shaped Steel Structure with (St37-2) (USt37-2) (RSt37-2) A570 Gr.A Grade Featured Image
  • ASTM A36 HEA HEB IPE H Beams I Beams for Building /H Shaped Steel Structure with (St37-2) (USt37-2) (RSt37-2) A570 Gr.A Grade
  • ASTM A36 HEA HEB IPE H Beams I Beams for Building /H Shaped Steel Structure with (St37-2) (USt37-2) (RSt37-2) A570 Gr.A Grade
  • ASTM A36 HEA HEB IPE H Beams I Beams for Building /H Shaped Steel Structure with (St37-2) (USt37-2) (RSt37-2) A570 Gr.A Grade
  • ASTM A36 HEA HEB IPE H Beams I Beams for Building /H Shaped Steel Structure with (St37-2) (USt37-2) (RSt37-2) A570 Gr.A Grade
  • ASTM A36 HEA HEB IPE H Beams I Beams for Building /H Shaped Steel Structure with (St37-2) (USt37-2) (RSt37-2) A570 Gr.A Grade

Short Description:

H beam channel steel is a type of steel with a cross-section shaped like the letter “H”; it is considered an economical structural steel profile.  It is named after its “H” shape. Compared to I-beams, H-beams have wider flanges and thinner webs, resulting in superior cross-sectional performance, allowing them to withstand greater loads while using less steel material.


  • Standard: EN
  • Flange Thickness: 4.5-35mm
  • Flange Width: 100-1000mm
  • Length: 6m, 9m,12m or as your requirement
  • Delivery Term: FOB CIF
  • Contact Us: +86 13652091506
  • Email: [email protected]
    • Send email to us WhatsApp

    Product Detail

    Product Tags

    ASTM H-Shaped Steel
    Get Project-Based Quote in 24h

    PRODUCT PRODUCTION PROCESS

    1. Raw Material Preparation
    High-quality steel billets are selected as the raw material. They are inspected, cleaned, and heated to the required rolling temperature to ensure uniform plasticity during processing.

    2. Hot Rolling Forming
    The heated billets are passed through a hot rolling mill, where multiple rolling stands gradually shape the steel into a precise H-shaped cross-section with consistent dimensions and structural performance.

    3. Optional Cold Finishing
    For applications requiring higher dimensional accuracy and improved surface quality, additional cold processing such as cold drawing or straightening may be applied after hot rolling.

    4. Cutting and Dimension Adjustment
    The rolled H-beams are cut into required lengths according to customer specifications, followed by end finishing to ensure clean edges and accurate dimensions.

    5. Surface Treatment
    The finished beams undergo surface cleaning and anti-rust treatment, such as oiling or coating, to enhance corrosion resistance during storage and transportation.

    6. Quality Inspection & Packaging
    Each batch is strictly inspected for dimensional accuracy, appearance quality, and mechanical properties. After passing inspection, the H-beams are securely bundled, labeled, and prepared for shipment.

    ASTM H-Shaped Steel (11)

    PRODUCT SIZE

    EN H-Shaped Steel (2)
    Designation Unt
    Weight
    kg/m)    		 Standard Secional
    imension
    mm    		 Sectional
    Ama
    (cm²
    W H B 1 2 r A
    HE28 AA 61.3 264.0 280.0 7.0 10.0 24.0 78.02
    A 76.4 270.0 280.0 80 13.0 24.0 97.26
    B 103 280.0 280.0 10.5 18.0 24.0 131.4
    M 189 310.0 288.0 18.5 33.0 24.0 240.2
    HE300 AA 69.8 283.0 300.0 7.5 10.5 27.0 88.91
    A 88.3 200.0 300.0 85 14.0 27.0 112.5
    B 117 300.0 300.0 11.0 19.0 27.0 149.1
    M 238 340.0 310.0 21.0 39.0 27.0 303.1
    HE320 AA 74.3 301.0 300.0 80 11.0 27.0 94.58
    A 97.7 310.0 300.0 9.0 15.5 27.0 124.4
    B 127 320.0 300.0 11.5 20.5 27.0 161.3
    M 245 359.0 309.0 21.0 40.0 27.0 312.0
    HE340 AA 78.9 320.0 300.0 85 11.5 27.0 100.5
    A 105 330.0 300.0 9.5 16.5 27.0 133.5
    B 134 340.0 300.0 12.0 21.5 27.0 170.9
    M 248 377.0 309.0 21.0 40.0 27.0 315.8
    HE360 AA 83.7 339.0 300.0 9.0 t2.0 27.0 106.6
    A 112 350.0 300.0 10.0 17.5 27.0 142.8
    B 142 360.0 300.0 12.5 22.5 27.0 180.6
    M 250 395.0 308.0 21.0 40.0 27.0 318.8
    HE400 AA 92.4 3780 300.0 9.5 13.0 27.0 117.7
    A 125 390.0 300.0 11.0 19.0 27.0 159.0
    B 155 400.0 300.0 13.5 24.0 27.0 197.8
    M 256 4320 307.0 21.0 40.0 27.0 325.8
    HE450 AA 99.8 425.0 300.0 10.0 13.5 27.0 127.1
    A 140 440.0 300.0 11.5 21.0 27.0 178.0
    B 171 450.0 300.0 14.0 26.0 27.0 218.0
    M 263 4780 307.0 21.0 40.0 27.0 335.4
    Designatio Unit
    Weight
    kg/m)    		 Standad Sectional
    Dimersion
    (mm)    		 Sectiona
    Area
    (cm²)
    W H B 1 2 r     A
    HE50 AA 107 472.0 300.0 10.5 14.0 27.0 136.9
    A 155 490.0 300.0 t2.0 23.0 27.0 197.5
    B 187 500.0 300.0 14.5 28.0 27.0 238.6
    M 270 524.0 306.0 21.0 40.0 27.0 344.3
    HE550 AA t20 522.0 300.0 11.5 15.0 27.0 152.8
    A 166 540.0 300.0 t2.5 24.0 27.0 211.8
    B 199 550.0 300.0 15.0 29.0 27.0 254.1
    M 278 572.0 306.0 21.0 40.0 27.0 354.4
    HE60 AA t29 571.0 300.0 t2.0 15.5 27.0 164.1
    A 178 500.0 300.0 13.0 25.0 27.0 226.5
    B 212 600.0 300.0 15.5 30.0 27.0 270.0
    M 286 620.0 305.0 21.0 40.0 27.0 363.7
    HE650 AA 138 620.0 300.0 t2.5 16.0 27.0 175.8
    A 190 640.0 300.0 t3.5 26.0 27.0 241.6
    B 225 660.0 300.0 16.0 31.0 27.0 286.3
    M 293 668.0 305.0 21.0 40.0 27.0 373.7
    HE700 AA 150 670.0 300.0 13.0 17.0 27.0 190.9
    A 204 600.0 300.0 14.5 27.0 27.0 260.5
    B 241 700.0 300.0 17.0 32.0 27.0 306.4
    M 301 716.0 304.0 21.0 40.0 27.0 383.0
    HE800 AA 172 770.0 300.0 14.0 18.0 30.0 218.5
    A 224 790.0 300.0 15.0 28.0 30.0 285.8
    B 262 800.0 300.0 17.5 33.0 30.0 334.2
    M 317 814.0 303.0 21.0 40.0 30.0 404.3
    HE800 AA 198 870.0 300.0 15.0 20.0 30.0 252.2
    A 252 800.0 300.0 16.0 30.0 30.0 320.5
    B 291 900.0 300.0 18.5 35.0 30.0 371.3
    M 333 910.0 302.0 21.0 40.0 30.0 423.6
    HEB1000 AA 222 970.0 300.0 16.0 21.0 30.0 282.2
    A 272 0.0 300.0 16.5 31.0 30.0 346.8
    B 314 1000.0 300.0 19.0 36.0 30.0 400.0
    M 349 1008 302.0 21.0 40.0 30.0 444.2
    EN H-Shaped Steel

    EN H-Shaped Steel

    Grade: EN10034:1997 EN10163-32004

    Specification:HEA HEB and HEM

    Standard: EN

     

    FEATURES

    1. High Strength Capacity
    The optimized H-shaped cross-section provides excellent bending resistance and load-bearing performance, making H-beams suitable for long-span structures and heavy-load applications.

    2. Excellent Structural Stability
    H-beams deliver strong resistance to both compression and tension forces, ensuring high structural stability and enhanced safety in demanding engineering conditions.

    3. Easy Installation & Construction Efficiency
    Their standardized shape and compatibility with various connection methods make H-beams easy to install, helping improve construction speed and overall project efficiency.

    4. High Material Utilization
    The efficient cross-sectional design maximizes steel performance while reducing material waste, supporting cost efficiency and sustainable construction practices.

    5. Wide Application Range
    H-beams are widely used in building structures, bridges, industrial facilities, and mechanical engineering projects, offering versatile solutions across multiple industries.

    Summary
    Standard H-beams combine high strength, excellent stability, and construction efficiency, making them one of the most reliable and widely used structural steel materials in modern engineering.

    ASTM H-Shaped Steel (4)

    PRODUCT INSPECTION

    1. Appearance Quality
    H-beams must have a clean, smooth surface without cracks, dents, heavy rust, scratches, or other visible defects, fully complying with relevant standards and customer requirements.

    2. Dimensional Accuracy
    Key dimensions such as length, flange width, web height, web thickness, and flange thickness must be strictly controlled within specified tolerances.

    3. Straightness
    The beam must meet straightness standards. This is checked by measuring overall alignment or using professional straightness gauges to ensure no significant bending.

    4. Torsion Control
    H-beams should maintain proper geometric stability without twisting. Torsion is verified through perpendicularity checks or torsion measuring instruments.

    5. Weight Tolerance
    Each beam must meet the specified weight range. Weight consistency is verified through weighing and standard tolerance limits.

    6. Chemical Composition (If Required)
    For welding or further processing applications, chemical composition must comply with relevant standards to ensure proper performance and compatibility.

    7. Mechanical Properties
    Mechanical performance such as tensile strength, yield strength, and elongation must meet ASTM or project-specific requirements.

    8. Non-Destructive Testing (NDT)
    When required, ultrasonic or other NDT methods are used to detect internal defects and ensure structural integrity.

    9. Packaging & Marking
    Proper labeling, bundling, and marking must be applied to ensure traceability, safe transportation, and easy on-site identification.

    EN H-Shaped Steel (8)

    PRODUCT APPLICATION

    External standard H-beams are widely used in the construction and engineering fields, including but not limited to the following aspects:
    Structural engineering, bridge engineering, machinery manufacturing, shipbuilding, steel structure construction,

    EN H-Shaped Steel (4)

    PACKAGING AND SHIPPING

    1. Packaging
    H-beams are packaged according to customer requirements to protect surface quality during handling and shipment. Common options include bare bundling, steel strapping with protective covers, wooden pallet packaging, and waterproof plastic wrapping to prevent scratches, moisture, and corrosion.

    2. Labeling
    Each bundle is clearly marked with essential information such as grade, size, heat number, quantity, and order details for easy identification, traceability, and on-site management.

    3. Loading
    During loading, H-beams are carefully handled using appropriate lifting equipment to avoid impact, bending, or surface damage. Proper stacking and securing are applied to ensure stability during transport.

    4. Transportation
    Suitable transport methods such as truck, rail, or sea freight are selected based on order volume and delivery destination. Cargo is firmly secured to prevent movement and ensure safe long-distance transportation.

    5. Unloading
    At the destination, unloading must be carried out with caution using proper equipment to prevent damage caused by dropping or improper handling.

    6. Storage
    H-beams should be stored in a dry, ventilated warehouse or elevated area to avoid moisture exposure, rust formation, and environmental damage, ensuring long-term material quality.

    ASTM H-Shaped Steel (9)
    EN H-Shaped Steel (5)

    COMPANY STRENGTH

    ASTM H-Shaped Steel (10)

    FAQ

    1. How can I get a quotation from you?

    You can simply leave us a message with your inquiry details, and our sales team will respond promptly with a competitive quotation.

    2. Will you deliver the goods on time?

    Yes, we are committed to on-time delivery. We ensure strict production scheduling and reliable logistics to meet agreed delivery timelines.

    3. Can I get samples before placing an order?

    Yes, samples are available upon request. In most cases, samples are free, and we can also produce them according to your drawings or specifications.

    4. What are your payment terms?

    Our standard payment terms are 30% T/T deposit and 70% balance against copy of B/L. We also accept EXW, FOB, CFR, and CIF terms.

    5. Do you accept third-party inspection?

    Yes, we fully support third-party inspections such as SGS, BV, and other internationally recognized inspection agencies.

    6. How can we trust your company?

    We are a professional steel supplier with years of industry experience. As a verified golden supplier, we are headquartered in Tianjin, China, and welcome all forms of company verification and factory inspection.

  • Previous:
  • Next:
    • Write your message here and send it to us

    Products categories