What are the different types of steel rail?
Jan 21, 2026
A steel rail is a high-strength, wear-resistant metal component used as the running surface for trains, cranes, and other rail-guided vehicles. It is a fundamental element of any railway system, designed to support heavy loads, maintain track geometry, and provide a smooth and safe passage for rolling stock.
What are the different types of steel rail?
Steel rails can be classified into several types depending on their intended use, profile, and manufacturing standard. The main categories include train rails, mining rails, DIN 536 crane rails, QU crane rails, and flat bar rails. Each type is engineered to meet specific mechanical properties, load requirements, and environmental conditions. Train rails, for instance, are primarily used on passenger and freight railway lines, while crane rails are optimized for overhead or gantry cranes operating in industrial facilities. Flat bar rails are simpler sections used for temporary tracks or light-duty applications.

Steel rails are manufactured according to various international standards to ensure consistency, interchangeability, and safety. Common standards include GB (China), UIC (Europe), EN (Europe), AREMA/ASCE (USA), DIN536 (Germany), BS (UK), JIS (Japan), AS (Australia), and ISCOR (South Africa). For example, a 60 kg/m UIC rail would differ from a DIN 536 crane rail in both profile and chemical composition, reflecting their different applications.
As a professional rail fastener supplier, GNEE RAIL can provide different standard steel rail such as GB,American, BS, UIC, DIN, JIS, Australian and South Africa which used in railway lines, cranes and coal mining.

GB Standard Steel Rail
| Classification | Height(mm) | Head (mm) | Bottom (mm) | Thick(mm) | Weight (kg/m) | |
| Light Rail | 8 KG/M | 65 | 25 | 54 | 7 | 8.42 |
| 9 KG/M | 63.5 | 32.1 | 63.5 | 5.9 | 8.94 | |
| 12 KG/M | 69.85 | 38.1 | 69.85 | 7.54 | 12.2 | |
| 15 KG/M | 79.37 | 42.86 | 79.37 | 8.33 | 15.2 | |
| 18 KG/M | 80 | 40 | 80 | 10 | 18.06 | |
| 22 KG/M | 93.66 | 50.8 | 93.66 | 10.72 | 22.3 | |
| 24 KG/M | 107 | 51 | 90 | 10.9 | 24.46 | |
| 30 KG/M | 107.95 | 60.33 | 107.95 | 12.3 | 30.1 | |
| Heavy Rail | 38 KG/M | 134 | 68 | 114 | 13 | 38.733 |
| 43 KG/M | 140 | 70 | 114 | 14.5 | 44.653 | |
| 45 KG/M | 145 | 67 | 126 | 14.5 | 45.546 | |
| 50 KG/M | 152 | 70 | 132 | 15.5 | 51.514 | |
| 60 KG/M | 176 | 73 | 150 | 16.5 | 60.64 | |
| Crane Rail | QU 70 | 120 | 70 | 120 | 28 | 52.8 |
| QU 80 | 130 | 80 | 130 | 32 | 63.69 | |
| QU 100 | 150 | 100 | 150 | 38 | 88.96 | |
| QU 120 | 170 | 120 | 170 | 44 | 118.1 | |
South African Standard Steel Rail
| Standard: ISCOR | ||||||
|---|---|---|---|---|---|---|
| Size | Dimension(mm) | Weight (kg/m) |
Length(m) | |||
| Head | Height | Bottom | Thickness | |||
| 15 KG | 41.28 | 76.2 | 76.2 | 7.54 | 14.905 | 9 |
| 22 KG | 50.01 | 95.25 | 95.25 | 9.92 | 22.542 | 9 |
| 30 KG | 57.15 | 95.25 | 109.54 | 11.5 | 30.25 | 9 |
| 40 KG | 63.5 | 127 | 127 | 14 | 40.31 | 9-25 |
| 48 KG | 68 | 150 | 127 | 14 | 47.6 | 9-25 |
| 57 KG | 71.2 | 165 | 140 | 16 | 57.4 | 9-25 |
JIS E 1103/1101 Standard Steel Rail
| Standard: JIS E 1103/1101 | ||||||
|---|---|---|---|---|---|---|
| Size | Dimension(mm) | Weight (kg/m) |
Length(m) | |||
| Head | Height | Bottom | Thickness | |||
| JIS 15KG | 42.86 | 79.37 | 79.37 | 8.33 | 15.2 | 9-10 |
| JIS 22KG | 50.8 | 93.66 | 93.66 | 10.72 | 22.3 | 9-10 |
| JIS 30A | 60.33 | 107.95 | 107.95 | 12.3 | 30.1 | 9-10 |
| JIS 37A | 62.71 | 122.24 | 122.24 | 13.49 | 37.2 | 10-25 |
| JIS 50N | 65 | 153 | 127 | 15 | 50.4 | 10-25 |
| CR 73 | 100 | 135 | 140 | 32 | 73.3 | 10-12 |
| CR 100 | 120 | 150 | 155 | 39 | 100.2 | 10-12 |
DIN 13674-1-2003 Standard Steel Rail
| Standard:DIN 536 | ||||||
|---|---|---|---|---|---|---|
| Size | Dimension(mm) | Weight (kg/m) |
Length(m) | |||
| Head | Height | Bottom | Thickness | |||
| A55 | 55 | 65 | 150 | 31 | 31.8 | 10-12 |
| A55 | 65 | 75 | 175 | 38 | 43.1 | |
| A75 | 75 | 85 | 200 | 45 | 56.2 | |
| A100 | 100 | 95 | 200 | 60 | 74.3 | |
| A120 | 120 | 105 | 200 | 72 | 100 | |
UIC 860 Standard Steel Rail
| Standard: UIC860 | ||||||
|---|---|---|---|---|---|---|
| Size | Dimension(mm) | Weight (kg/m) |
Length(m) | |||
| Head | Height | Bottom | Thickness | |||
| UIC50 | 70 | 152 | 125 | 15 | 50.46 | 12-25 |
| UIC54 | 70 | 159 | 140 | 16 | 54.43 | |
| UIC60 | 74.3 | 172 | 150 | 16.5 | 60.21 | |
BS11:1985 Standard Steel Rail
| Standard: BS11:1985 | ||||||
|---|---|---|---|---|---|---|
| Size | Dimension(mm) | Weight (kg/m) |
Length(m) | |||
| Head | Height | Bottom | Thickness | |||
| 50 O | 52.39 | 100.01 | 100.01 | 10.32 | 24.833 | 6-18 |
| 60 A | 57.15 | 114.3 | 109.54 | 11.11 | 30.618 | |
| 75 A | 61.91 | 128.59 | 114.3 | 12.7 | 37.455 | 8-25 |
| 75 R | 61.91 | 128.59 | 122.24 | 13.1 | 37.041 | |
| 80 A | 63.5 | 133.35 | 117.47 | 13.1 | 39.761 | |
| 80 R | 63.5 | 133.35 | 127 | 13.49 | 39.674 | |
| 90 A | 66.67 | 142.88 | 127 | 13.89 | 45.099 | |
| 100 A | 69.85 | 152.4 | 133.35 | 15.08 | 50.182 | |
| 113 A | 69.85 | 158.75 | 139.7 | 20 | 56.398 | |
American Standard Steel Rail
| ASTM standard, AREMA standard | ||||||
|---|---|---|---|---|---|---|
| Size | Dimension(mm) | Weight (kg/m) |
Length(m) | |||
| Head | Height | Foot | Thickness | |||
| ASCE 25 | 38.1 | 69.85 | 69.85 | 7.54 | 12.4 | 6-12 |
| ASCE 30 | 42.86 | 79.38 | 79.38 | 8.33 | 14.88 | |
| ASCE 40 | 47.62 | 88.9 | 88.9 | 9.92 | 19.84 | |
| ASCE 60 | 60.32 | 107.95 | 107.95 | 12.3 | 29.76 | |
| ASCE 75 | 62.71 | 122.24 | 122.24 | 13.49 | 37.2 | 12-25 |
| ASCE 85 | 65.09 | 131.76 | 131.76 | 14.29 | 42.17 | |
| ASCE 90 | 69.09 | 130.18 | 142.88 | 14.29 | 44.65 | |
| ASCE 115 | 69.06 | 139.7 | 168.28 | 15.88 | 56.9 | |
| ASCE 136 | 74.61 | 152.4 | 185.74 | 17.46 | 67.41 | |
| ASCE 175 | 109.86 | 152.4 | 152.4 | 38.1 | 86.8 | |
Why are steel rails used in railways?
Steel rails are used in railways for their exceptional strength, durability, and wear resistance, allowing them to withstand immense weight, constant friction, and extreme conditions while providing a smooth, low-friction path for heavy trains, ensuring safety, longevity, and efficient transport of goods and people. Key properties include high tensile/compressive strength, hardness, and toughness, achieved through specific alloying elements like manganese, silicon, chromium, and vanadium, making steel superior to other metals for this demanding application.
Key Reasons for Using Steel:
- Strength & Load Bearing: Steel's high tensile and compressive strength allows it to bear massive loads from heavy freight and passenger trains without deforming or failing.
- Durability & Wear Resistance: It resists constant friction, impact, and abrasion from wheels, maintaining the rail's dimensional stability and preventing rapid wear, which is crucial for safety.
- Fatigue Resistance: Steel can handle repeated stress cycles from passing trains, preventing cracks and ensuring long service life.

- Weather & Temperature Resilience: It maintains structural integrity under extreme temperature variations, humidity, and harsh outdoor conditions.
- Low Friction: The "steel-on-steel" contact provides low rolling resistance, enabling trains to move heavy loads efficiently.
- Versatility & Cost-Effectiveness: Steel's properties can be tailored (e.g., with alloying elements like manganese, vanadium), and it remains a cost-effective material for building extensive rail networks.
What are the main materials of steel track rail?
Common Rail Steel Grades Worldwide:
| Grade | Standard / Region | Typical Composition (wt%) | Key Features & Applications |
| R260 | EN 13674-1 (Europe) | C: 0.67–0.80, Mn: 0.90–1.20, Si: ≤0.50 | Base-grade rail; cold-rolled; widely used on medium-traffic lines. Good weldability and cost efficiency. |
| R350HT | EN 13674-1 (Europe) | C: 0.75–0.85, Mn: 0.80–1.20, Cr: 0.20–0.50 | Heat-treated (online/offline); UTS ≥1100 MPa; 30–50% longer life than R260. Standard for high-speed (TGV, ICE) and heavy-haul lines. |
| Grade 260 | AREMA (North America) | C: ~0.77, Mn: ~1.0–1.2, Si: ~0.2 | Equivalent to R260; used with rail sections like 115RE, 136RE. Common on Class I freight networks. |
| Grade 350 | AREMA + Mill Specs (USA/Canada) | C: 0.78–0.83, Mn: 0.90–1.20, Cr: 0.2–0.6, + V/Nb (microalloyed) | TMCP or heat-treated; UTS ~1180–1280 MPa. For demanding curves, heavy axle loads (>33 ton), and high-tonnage corridors. |
| BH Rail (Bainitic) | JIS E 1101 (Japan), adopted in EU/India | C: 0.65–0.80, Mn: 1.0–1.4, Cr/Mo/Ni (optional, mill-specific) | Bainitic microstructure; high strength (UTS ~1250–1350 MPa) + superior fracture toughness. Used on Shinkansen curves and high-wear segments. |
| U71Mn | GB/T 2585 (China) | C: 0.65–0.77, Mn: 1.10–1.40, Si: 0.15–0.35 | Work-hardening carbon-manganese rail; standard for 50kg/m, 60kg/m rails on Chinese mainlines. Comparable to R260/R350 in performance. |
| U75V | GB/T 2585 (China) | C: 0.67–0.77, Mn: 0.70–1.00, V: 0.04–0.12 | Vanadium-microalloyed; higher strength & fatigue resistance than U71Mn. For high-speed (e.g., Beijing–Shanghai HSR) and heavy-haul lines. |
Since 2008, GNEE RAIL has been supplying steel rails of different grades for more than 18 years, steel rails from GNEE is highly recommened in China and abroad.Wtih cutting edge equipment, GNEE produces high quality steel rails that meet with requirements of most countries. Standard rail, head hardened rail, heavy rail,light rail,crane rail and other types are all available here, as one of the China main rail supplier, GNEE RAIL has been working on supplying economical green railway products all over the world.







