• Mild Steel Prime Hot Rolled Light Rail Steel System 1
  • Mild Steel Prime Hot Rolled Light Rail Steel System 2
  • Mild Steel Prime Hot Rolled Light Rail Steel System 3
Mild Steel Prime Hot Rolled Light Rail Steel

Mild Steel Prime Hot Rolled Light Rail Steel

Ref Price:
get latest price
Loading Port:
China main port
Payment Terms:
TT OR LC
Min Order Qty:
100 m.t.
Supply Capability:
10000 m.t./month

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Item specifice

Standard:
ASTM,GB,BS
Technique:
Hot Rolled
Shape:
rail
Surface Treatment:
Black
Steel Grade:
Q235
Thickness:
-
Length:
-
Net Weight:
-

Product Description:

OKorder is offering Mild Steel Prime Hot Rolled Light Rail Steel at great prices with worldwide shipping. Our supplier is a world-class manufacturer of steel, with our products utilized the world over. OKorder annually supplies products to African, South American and Asian markets. We provide quotations within 24 hours of receiving an inquiry and guarantee competitive prices.

 

Product Applications:

Mild Steel Prime Hot Rolled Light Rail Steel are ideal for structural applications and are widely used in the construction of railways,mining rails, and transportation industries.

 

Product Advantages:

OKorder's Mild Steel Prime Hot Rolled Light Rail Steel are durable, strong, and wide variety of sizes.

 

Main Product Features:

·         Premium quality

·         Prompt delivery & seaworthy packing (30 days after receiving deposit)

·         Can be recycled and reused

·         Mill test certification

·         Professional Service

·         Competitive pricing

 

Product Specifications:

Manufacture: Hot rolled

Grade: Q235, 55Q,71Mn

Certificates: ISO, SGS, BV, CIQ

Length: 6m – 12m, as per customer request

Packaging: Export packing, nude packing, bundled

 

FAQ:

Q1: Why buy Materials & Equipment from OKorder.com?

A1: All products offered byOKorder.com are carefully selected from China's most reliable manufacturing enterprises. Through its ISO certifications, OKorder.com adheres to the highest standards and a commitment to supply chain safety and customer satisfaction.

Q2: How do we guarantee the quality of our products?

A2: We have established an advanced quality management system which conducts strict quality tests at every step, from raw materials to the final product. At the same time, we provide extensive follow-up service assurances as required.

Q3: How many tons of steel products could be loaded in containers?

A3: Usually the steel products are delivered by bulk vessel because of the large quantity and the freight. However, there are no bulk vessel enter some seaports so that we have to deliver the cargo by containers. The 6m steel product can be loaded in 20FT container, but the quantity is changed according to the size, usually from 18tons to 25tons.

Q4: what is the difference between actual weight and theoretical weight?

A4: All the section steel has two weights: actual weight and theoretical weight. Actual weight is the weighing out when the product delivered from the mill. Theoretical weight is calculated by pieces.  The invoice can be based on each of them as your request.

 

Images:

Mild Steel Prime Hot Rolled Light Rail Steel

Mild Steel Prime Hot Rolled Light Rail Steel


Q:Can steel rails be used in elevated railways or bridges?
Indeed, elevated railways or bridges can employ steel rails. These particular structures frequently employ steel rails because of their robustness, endurance, and resistance to deterioration. Steel rails demonstrate the capacity to bear substantial burdens while offering a steadfast and secure track for the passage of trains or vehicles. Furthermore, steel rails possess the ability to endure environmental conditions, including fluctuations in temperature and exposure to moisture, rendering them apt for implementation in elevated railways and bridges.
Q:How do steel rails contribute to reducing track maintenance costs?
Steel rails contribute to reducing track maintenance costs in several ways. Firstly, steel rails are known for their durability and longevity. They have a high resistance to wear and tear, which means they can withstand heavy loads and frequent train traffic without needing frequent replacements. This reduces the frequency of track maintenance activities, saving both time and money. Secondly, steel rails have excellent track stability. They provide a smooth surface for trains to run on, minimizing the chances of derailments and other track-related incidents. This reduces the need for emergency repairs and enhances overall safety, further reducing maintenance costs. Additionally, steel rails are highly resistant to weather conditions such as extreme temperatures and moisture. They do not corrode easily and can withstand harsh environmental factors. As a result, they require less maintenance and repairs compared to other rail materials like wood or concrete. Lastly, steel rails are relatively easy to install and maintain. They can be quickly and efficiently replaced or repaired if needed, minimizing downtime and disruption to train services. This efficiency in maintenance operations helps reduce costs associated with labor and materials. Overall, the durability, stability, weather resistance, and ease of maintenance of steel rails significantly contribute to reducing track maintenance costs.
Q:What are the requirements for steel rail transportation logistics?
The requirements for steel rail transportation logistics include a well-established rail network, efficient scheduling and coordination of train services, appropriate infrastructure for loading and unloading steel cargo, specialized equipment for handling and securing steel products, and strict adherence to safety protocols to ensure the secure and timely delivery of steel goods. Additionally, proper documentation, tracking systems, and communication channels are crucial for effective steel rail transportation logistics.
Q:How are steel rails inspected for surface cleanliness?
Steel rails are typically inspected for surface cleanliness by using methods such as visual inspection, ultrasonic testing, magnetic particle testing, and dye penetrant testing. These techniques help identify any contaminants, defects, or irregularities on the rail surface, ensuring its cleanliness and structural integrity.
Q:How do steel rails affect train braking and stopping distances?
Effective braking and control of trains rely heavily on steel rails. The strength and durability of steel enable it to facilitate efficient braking. When a train's brakes are engaged, friction is generated between the brake shoes or pads and the steel rails, which aids in slowing down and halting the train. The smooth and even nature of steel rails also contribute significantly to the effectiveness of train braking. By maintaining a well-kept rail surface, consistent contact between the train's wheels and the rails is ensured, thereby enhancing braking performance. Any flaws or irregularities in the rail surface, such as bumps or worn-out areas, can impede the braking process and potentially lengthen stopping distances. Furthermore, the weight of steel rails is an important consideration. Heavier rails offer greater stability to the train during braking, preventing them from flexing or bending under the immense force applied by the braking system. This stability is essential for maintaining control over the train and reducing stopping distances. Aside from material properties and weight, the design and layout of steel rails also impact train braking and stopping distances. Proper rail alignment and curvature allow for smooth transitions between sections, relieving strain on the train's braking system and enabling more efficient braking. Conversely, sharp curves or changes in track elevation can increase stopping distances due to additional forces exerted on the train. In conclusion, steel rails are crucial in train braking and stopping distances as they provide a stable and consistent surface for effective friction between the train's brakes and the rails. Proper maintenance, alignment, and design of steel rails are essential for optimizing braking performance and minimizing stopping distances.
Q:Are steel rails affected by seismic activities?
Yes, steel rails can be affected by seismic activities. Seismic events, such as earthquakes, can cause ground shaking and vibrations that can potentially damage or displace steel rails. Proper design and construction techniques, including reinforcement and flexible connections, are necessary to mitigate the impact of seismic activities on steel rails.
Q:How are steel rails protected from extreme weather conditions?
Steel rails are protected from extreme weather conditions through various methods such as coating them with corrosion-resistant materials like zinc or paint, implementing regular maintenance and inspections to identify and repair any damage promptly, and utilizing preventive measures like de-icing agents in cold temperatures.
Q:Can steel rails be used in areas with high saline content in the soil?
Yes, steel rails can be used in areas with high saline content in the soil. However, special precautions need to be taken to protect the steel rails from corrosion caused by the salt. This can include applying protective coatings or using corrosion-resistant materials in the construction of the rails. Regular maintenance and inspections are also necessary to ensure the longevity and safety of the steel rails in such environments.
Q:How do steel rails contribute to reducing train travel time?
The reduction of train travel time can be attributed to various factors associated with steel rails: 1. Durability: The high durability of steel rails enables them to withstand heavy loads and constant train traffic. As a result, they require less maintenance and replacement compared to materials like wood or concrete. This allows trains to operate at higher speeds without the need for frequent repairs or replacements, ultimately reducing travel time. 2. Smooth surface: Steel rails possess a smooth surface with minimal friction, facilitating trains to glide effortlessly along the tracks. This results in reduced energy loss and faster acceleration. The decreased friction also enables trains to maintain higher speeds, ultimately leading to a decrease in travel time. 3. Enhanced weight-bearing capacity: Steel rails boast a higher weight-bearing capacity in comparison to other materials. Consequently, trains can carry heavier loads and operate at higher speeds without causing significant damage to the tracks. This increased capacity diminishes the necessity for speed restrictions, allowing trains to travel faster and complete their journeys more expeditiously. 4. Alignment and precision: Steel rails are manufactured with precision, guaranteeing accurate alignment and stability. This alignment reduces the risk of derailment and improves overall safety. Furthermore, the smooth and stable surface of steel rails facilitates the operation of train control systems, including signaling and communication technologies. These systems contribute to maintaining consistent train speeds and reducing travel time. 5. Compatibility with advanced technologies: Steel rails are compatible with various advanced technologies, such as magnetic levitation (maglev) systems. Maglev trains utilize magnetic forces to eliminate friction between the train and the track, enabling extremely high speeds. Steel rails provide a stable base for maglev technology, further enhancing the reduction in travel time. In conclusion, steel rails play a significant role in reducing train travel time due to their durability, smooth surface, enhanced weight-bearing capacity, alignment and precision, and compatibility with advanced technologies. These factors enable trains to operate at higher speeds, maintain consistency, and reduce the need for frequent maintenance, resulting in faster and more efficient travel.
Q:What are the different methods of repairing damaged steel rails?
There are several methods for repairing damaged steel rails, including welding, grinding, and bolted splice joints. Welding involves fusing the damaged sections of the rail together using heat and a filler material, while grinding is used to smooth out any irregularities or defects on the rail's surface. Bolted splice joints are used to replace sections of severely damaged rails by removing the damaged portion and connecting the remaining sections with bolted plates. These methods help to restore the integrity and functionality of the steel rails.

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