Steel Rails are the key parts of the rail track laid in two parallel lines to provide a continuous, steady and level surface for the runnings of trains. Heavier train and fast speed requires higher requirements to withstand stresses, so they are produced from high carbon steel (carbon -0.6 % to 0.8 %, manganese 0.8%-1.3 %, silicon 0.1 % -0.5 %, sulphur and phosphorus0.03 % maximum each, and aluminum 0.015 % maximum).
What are the different types of rail steel?
Rail steel types vary by composition (carbon, alloy) and treatment (head-hardened, bainitic), classified by weight (light/heavy), profile (flat-bottom, bullhead), or application (crane, high-speed), with common types including basic carbon steel, low-alloy, and advanced head-hardened steel for superior wear resistance in heavy-traffic lines.
By Chemical Composition & Treatment
- Carbon Steel Rails: Basic, cost-effective, used in lower-traffic lines.
- Low-Alloy Steel Rails: Contain elements like Manganese, Chromium, Nickel for increased strength and wear resistance (e.g., Manganese-Copper, High Silicon).
- Head-Hardened (HH) Rails: Heat-treated to create a very hard running surface (super-hard layer) for high-wear areas like metro lines, while keeping the core ductile.
- Bainitic Rails: Developed for high fatigue resistance, reducing the need for grinding.
- Manganese Steel: Used for crane rails due to toughness.
The chemical composition of train track steel
| No. | Element | Function |
|---|---|---|
| 1 | C | Improve the strength, hardness, and wear resistance of the rail. The carbon content of domestic rails is 0.65% to 0.82%. When the carbon content is relatively high, the steel becomes brittle, and its plasticity index will be significantly reduced. At the same time, it will increase the chance of white spots in the steel. |
| 2 | Si | It is easy to combine with oxidation and can play the role of removing bubbles in the metal. The steel contains an appropriate amount of silicon, which can improve the hardness and wear resistance of the steel. The content of domestic rail steel is generally 0159-0.9%, but too much content will make the steel hard and brittle, and it is easy to produce pores in the weld. |
| 3 | Mn | It is a beneficial element that can improve the strength and wear resistance of steel and increase the toughness of steel. It can remove harmful iron oxide and sulfide inclusions in the steel. The manganese content is generally controlled between 0.6% and 1.54%. Steel with a manganese content of more than 1.2% is called medium manganese steel, and its wear resistance is very high. |
| 4 | Cu | It is a beneficial element. Steel contains a small number of copper compounds, which can improve the fatigue resistance and corrosion resistance of steel. The copper content of domestic steel rails is generally between 0.10% and 0.40%. If the rolling process of the copper-containing rail is not good, fish-like cracks will occur on the surface of the rail |
| 5 | P | It is a harmful element. The biggest hazard of phosphide is to reduce the plasticity and toughness of the steel. Especially at low temperatures, the cold brittleness of the steel increases, which easily leads to broken rails, and its content is controlled at no more than 0.04% |
| 6 | S | The sulfur is a harmful element. It is often left in the steel in the form of granules. When the rail is rolled, it is rolled together with the steel into sheets, which causes delamination or longitudinal cracks in the rail. The amount of sulfur is controlled at no more than 0.05% |
By Application & Weight
- Light Rails: Lower weight per meter (e.g., 9kg, 22kg) for lighter-duty or industrial lines.
| 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 | |
- Heavy Rails: Higher weight (e.g., 50kg, 60kg) for main lines, freight, and high-speed railways.
| Classification | Height(mm) | Head (mm) | Bottom (mm) | Thick(mm) | Weight (kg/m) | |
| 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 Rails (e.g., QU Series): Specific manganese steel rails for crane tracks.
| Classification | SIZE(mm) | theoretical weight | |||||||||
| height | bottom width | head width | waist depth | ||||||||
| Crane rail | QU70 | 120 | 120 | 70 | 28 | 52.8 | |||||
| QU80 | 130 | 130 | 80 | 32 | 63.69 | ||||||
| QU100 | 150 | 150 | 100 | 38 | 88.96 | ||||||
| QU120 | 170 | 170 | 120 | 44 | 118.1 | ||||||
- High-Speed Rails: Specialized, often seamless, high-strength materials (like U71MnG, U75V) for 250-350 km/h lines.
| Steel Grade | C(%) | Si | Mn | Cr | V | P | S | Tensile Strength (Rm/MPa) |
| U71Mn | 0.65~0.76 | 0.15~0.58 | 0.70~1.40 | – | – | ≤0.035 | ≤0.030 | ≥880 |
| U75V | 0.71~0.80 | 0.50~0.80 | 0.75~1.05 | – | 0.04~0.12 | ≤0.035 | ≤0.030 | ≥980 |
| U78CrV | 0.72~0.82 | 0.50~0.80 | 0.70~1.05 | 0.30~0.50 | 0.04~0.12 | ≤0.035 | ≤0.030 | ≥1080 |
| U77MnCr | 0.72~0.82 | 0.10~0.50 | 0.80~1.10 | 0.25~0.40 | – | ≤0.035 | ≤0.025 | ≥980 |
| U76CrRE | 0.71~0.81 | 0.50~0.80 | 0.80~1.10 | 0.25~0.35 | 0.04~0.08 | ≤0.035 | ≤0.025 | ≥1080 |
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.