• Alloy steel billet square prime from china System 1
  • Alloy steel billet square prime from china System 2
Alloy steel billet square prime from china

Alloy steel billet square prime from china

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Loading Port:
Guangzhou
Payment Terms:
TT OR LC
Min Order Qty:
1000 m.t.
Supply Capability:
31264 m.t./month

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Item specifice

Size:
100mm to 165mm
Grade:
Q195/Q215/Q235/Q275

Steel billet

Steel billets have distinct characteristics as compared with already furnished steel bars and products. 

Billets have a specific grain structure, which enables the metal to be processed more intricately. Steel 

billets are also known for their malleability and ductility, especially when exposed to varying temperatures 

during shaping and molding.

 

Qaulity:own factory, stable quality

Tolerance: Strictly according to the G/B and JIS standard

Delivery time: within 45 days after receiving the L/C or advanced T/T payment.

Price term: FOB/CIF/ CFR according to clients requirements

Payment terms: 100%Irrevercable L/C at sight or T/T

 

Gade:

Standard

C(%)

Mn(%)

S(%)

P(%)

Si(%)

Q195

≤0.12

≤0.50

≤0.040

≤0.035

≤0.30

Q235

≤0.20

≤1.40

≤0.045

≤0.045

≤0.35

Q275

≤0.22

≤1.50

≤0.045

≤0.045

≤0.35

20MnSi

0.17-0.25

1.2-1.6

≤ 0.050

≤ 0.050

0.40-0.80

3SP

0.14-0.22

0.40-0.85

≤ 0.050

≤ 0.040

0.05-0.15

5SP

0.28-0.37

0.50-1.00

≤ 0.050

≤ 0.040

0.15-0.30

 

Alloy steel billet square prime from china

Alloy steel billet square prime from china

Alloy steel billet square prime from china

Our service :

We have a plant and professional team to provide our best service, from the start of production until the 

loading into the vessel, we have a complete quality follow up procedure, to assure our products arrives to the customer with satisfaction. Welcome new and old customers 

to contact us for future business relationships! We will give you a surpise price.

 

Packing : 

Within 30 days

1.Standard export package 
2.In bundles with steel strips 
3.As the requirements of the customers

FAQ:

Q: What is payment terms?
A: FOB 30% T/T IN ADVANCE AS DEPOSIT AND 70% T/T BEFORE SHIPMENT 
CIF and CFR 30% T/T IN ADVANCE AS DEPOSIT AND 70% T/T AS THE COPY OF B/L OR L/C AT SIGHT

 

Q:How to guarantee the quality of the products?

A:We have established the international advanced quality management system,every link from raw material 

to final product we have strict quality test;We resolutely put an end to unqualified products flowing into the market. 

At the same time, we will provide necessary follow-up service assurance.

 

Q:How long can we receive the product after purchase?

A :In the purchase of product within three working days, We will arrange the factory delivery as soon as possible. 

The pecific time of receiving is related to the state and position of customers.

 

 

 

 

Q:How are steel billets used in the production of tooling?
Tooling production relies heavily on the use of steel billets, which are indispensable for creating tools and machinery components. These semi-finished steel products play a vital role in the process due to their exceptional properties. To begin with, the steel billets undergo a transformation process called forging, where they are heated and subjected to pressure to achieve the desired shape and size. This forging process forms the basis for manufacturing a wide range of tooling components, including dies, molds, punches, and cutting tools. The strength and durability of steel billets make them highly suitable for tooling applications. Steel is renowned for its high tensile strength, which allows tools to withstand heavy loads and resist deformation during operation. Additionally, steel billets can be heat-treated to enhance their hardness, toughness, and wear resistance, thereby improving the performance and longevity of the tools. Moreover, steel billets possess excellent machinability, enabling them to be easily cut, drilled, or shaped into intricate designs. This versatility empowers tooling manufacturers to create complex and customized components that meet specific industry requirements. Once the steel billets have been forged and machined into the desired shape, they undergo additional processes such as grinding, polishing, and coating to attain the final tooling product. These finishing processes ensure that the tool's surface is smooth, free from flaws, and resistant to corrosion. In conclusion, steel billets are essential in tooling production due to their strength, durability, and machinability. They serve as the starting point for manufacturing various tooling components used in industries ranging from automotive manufacturing to aerospace. The versatility and reliability of steel billets make them a vital material in ensuring the quality and performance of tools used across diverse applications.
Q:What are the main factors affecting the tensile strength of steel billets?
The main factors affecting the tensile strength of steel billets include the chemical composition of the steel, the heat treatment process, the presence of impurities or defects in the material, the grain size and orientation, and the processing conditions used during manufacturing.
Q:How do steel billets contribute to the overall seismic resistance of a structure?
Steel billets play a crucial role in enhancing the overall seismic resistance of a structure. Seismic resistance refers to a structure's ability to withstand the forces and vibrations caused by earthquakes. Firstly, steel billets are commonly used as reinforcement in concrete structures. When placed within the concrete, they provide additional strength and durability to the structure, making it more resistant to seismic forces. The high tensile strength of steel billets allows them to absorb and distribute the seismic energy more effectively, reducing the risk of structural failure during an earthquake. Moreover, steel billets can be used to create specialized structural elements, such as braces or shear walls. These elements are strategically placed within the structure to resist lateral forces caused by earthquakes. By using steel billets, these elements can effectively absorb and dissipate the seismic energy, preventing it from causing significant damage to the overall structure. Furthermore, steel billets can be employed in the construction of seismic dampers. These dampers are devices designed to absorb and dissipate the energy generated by seismic events. By installing steel billet-based dampers, the structure can effectively reduce the amount of seismic energy transferred to the building, thus minimizing potential damage. Additionally, steel billets offer excellent ductility, which is the ability to deform without breaking. During an earthquake, structures undergo significant movements and vibrations. The ductile nature of steel allows it to bend and flex under these forces, absorbing the seismic energy and preventing sudden and catastrophic failure of the structure. In conclusion, steel billets contribute to the overall seismic resistance of a structure by providing additional strength and durability, creating specialized structural elements, allowing the construction of seismic dampers, and offering excellent ductility. Their use enhances the structure's ability to withstand seismic forces, reducing the risk of damage and ensuring the safety of the occupants.
Q:How do steel billets contribute to the manufacturing of HVAC systems?
The role of steel billets in the manufacturing of HVAC systems is crucial. These systems rely on strong and durable components to ensure efficient operation and longevity, and steel billets serve as the foundation for such components. To begin with, steel billets are utilized to construct the primary structural framework of HVAC systems. This framework, also known as the casing or housing, offers support and protection for the internal components including heat exchangers, fans, and coils. Steel billets possess high strength and rigidity, making them an ideal choice for creating a sturdy and dependable framework that can withstand the various stresses and strains encountered during system operation. Furthermore, steel billets are employed in the production of various internal components of HVAC systems. For instance, steel billets are commonly used to manufacture heat exchangers, which play a crucial role in transferring heat between the air and the refrigerant. Steel's high thermal conductivity and corrosion resistance make it an excellent material for these critical components, ensuring efficient heat transfer and long-term performance. Moreover, steel billets are utilized in the manufacturing of ductwork. Ductwork consists of a network of pipes or channels that distribute conditioned air throughout a building. Steel billets are often rolled and formed into the necessary shapes to create the ducts. The strength and durability of steel guarantee that the ductwork can withstand the pressure differentials and mechanical stresses associated with air movement, thereby maintaining the integrity of the system and preventing leaks. Additionally, steel billets are essential for the production of HVAC system supports and brackets. These components are responsible for securely mounting various equipment, such as air handling units or condensing units. Steel's strength and load-bearing capacity make it an ideal material for ensuring the stability and proper installation of these crucial elements. In conclusion, steel billets are vital in the manufacturing of HVAC systems as they provide the necessary strength, durability, and thermal properties for the structural framework, internal components, ductwork, and supports. Without steel billets, it would be extremely challenging to produce HVAC systems that deliver efficient heating, ventilation, and air conditioning to buildings.
Q:How are steel billets used in the manufacturing of pipeline systems?
The manufacturing process of pipeline systems relies heavily on steel billets. These billets are essential as they serve as the primary raw material for shaping and forming various pipeline components, including pipes, fittings, and connectors. To initiate the manufacturing process, the steel billets undergo heating to a specific temperature, making them malleable and easier to manipulate. Subsequently, they pass through a series of rolling mills, gradually taking on the desired form and size. This hot rolling process entails applying high pressure to elongate and shape the billets into long cylindrical pipes. Once the initial shaping is complete, the pipes undergo additional processes, such as heat treatment, cutting, and welding, to ensure their strength, durability, and dimensional accuracy. The steel billets used in this process are of utmost importance as they provide the necessary raw material for producing high-quality pipes that can withstand the demanding conditions of pipeline systems. Furthermore, steel billets also play a crucial role in the manufacturing of various pipeline fittings and connectors. By employing techniques like forging, machining, or casting, these billets are shaped and formed into fittings like elbows, tees, reducers, and flanges. These fittings are essential for connecting and joining pipes together, facilitating the proper flow and distribution of fluids or gases within the pipeline system. In conclusion, steel billets are indispensable in the manufacturing of pipeline systems. They serve as the raw material for pipes, fittings, and connectors, guaranteeing the production of durable and high-quality components. Through processes such as hot rolling, heat treatment, cutting, and welding, these billets meet the stringent requirements of pipeline systems.
Q:What is the average cost of steel billets?
The average cost of steel billets can vary depending on several factors such as the type of steel, market conditions, and global supply and demand. Steel billets are semi-finished metal products that are typically used as raw material for the production of various steel products. As of September 2021, the average cost of steel billets ranges from $400 to $600 per metric ton. However, it is important to note that this price can fluctuate significantly in response to factors such as changes in raw material costs (such as iron ore and scrap metal), energy prices, transportation costs, and market dynamics. Additionally, regional factors such as import tariffs, trade restrictions, and currency exchange rates can also impact the average cost of steel billets in specific countries or regions. It is always advisable to consult with industry experts, steel suppliers, or market reports to obtain the most accurate and up-to-date information on the current average cost of steel billets.
Q:What is the role of steel billets in the manufacturing of offshore structures?
Steel billets play a crucial role in the manufacturing of offshore structures as they serve as the foundational raw material for creating various components such as beams, columns, and plates. These billets are first heated and then shaped or molded into desired forms through processes like rolling or forging. Their high strength, durability, and resistance to corrosion make them ideal for withstanding the harsh marine environment in which offshore structures operate. Overall, steel billets are essential in ensuring the structural integrity and longevity of offshore structures, providing the necessary strength and stability to withstand the challenging conditions of the open seas.
Q:What is the role of steel billets in the manufacturing of material handling equipment?
Material handling equipment manufacturing relies heavily on steel billets, which are essential semi-finished steel products used as raw materials for various manufacturing processes. When it comes to material handling equipment, steel billets find their primary application in fabricating heavy-duty components like frames, beams, and brackets. These components must possess exceptional strength, durability, and resistance to wear and tear to endure the demanding conditions in which material handling equipment operates. Steel billets enable manufacturers to create these components with the necessary mechanical properties. Initially, the billets are heated and then shaped through processes such as rolling, forging, or extrusion to achieve the desired shape and dimensions. This shaping process ensures that the components have the required strength and structural integrity to handle the weight and stress associated with material handling tasks. In addition, steel billets offer excellent weldability, which is crucial for fabricating material handling equipment. The ability to securely and efficiently weld the components together ensures the safe and efficient movement of heavy loads, particularly in equipment like cranes, forklifts, and conveyors. Furthermore, steel billets provide a cost-effective solution for manufacturing material handling equipment. Steel is readily available, relatively affordable, and can be recycled, making it a sustainable choice. The versatility of steel billets also allows manufacturers to create components of various shapes and sizes, enabling customization to meet specific requirements. In conclusion, steel billets play a vital role in the manufacturing of material handling equipment. They provide the necessary raw material to create strong, durable, and reliable components that can withstand the demanding conditions of material handling tasks. With their excellent mechanical properties and weldability, steel billets contribute to the safe and efficient operation of material handling equipment.
Q:Is there an export duty? Or is there a tax refund?
Your specification 13*13*6 or 12 meters, this is a square cross section, so 7207120000 this can not be used, your billet carbon content is 0.17 to 0.23% less than 0.25%, so we must use the following7207190000 Other Billets with carbon content less than 0.25%Export tax refund: 0%MFN country of import tariff: 2%General customs duties: 11%Export tariff rate: 0%VAT: 17%
Q:How are steel billets used in the manufacturing of springs?
To produce springs, it is essential to utilize steel billets as they provide the necessary raw material for the manufacturing process. The billets, typically made from high-quality steel, are forged to create springs. To begin the process, the billets are heated to a specific temperature, making them malleable. Once heated, the billets are shaped into the desired form using methods like hot rolling or extrusion. After shaping, the billets undergo further processing to enhance their mechanical properties. This involves heat treatment processes like quenching and tempering to improve the steel's hardness, strength, and durability. The specific heat treatment process chosen depends on the desired characteristics of the spring. Once the billets are shaped and heat-treated, they are ready for transformation into springs. Generally, the billets are cut into smaller lengths and then machined or formed into the specific shape and size required for the spring. This can be achieved through methods such as coiling, bending, or stamping. The final stage of the manufacturing process involves finishing the springs. This can include grinding or polishing to ensure a smooth surface and eliminate any imperfections. Additionally, coatings or platings may be applied to enhance the springs' corrosion resistance or aesthetic appearance. In conclusion, steel billets play a vital role in the manufacturing of springs. They serve as the raw material, undergo various shaping and heat treatment processes, and are ultimately transformed into the desired form of the spring. By utilizing high-quality steel billets, the resulting springs possess the necessary strength, durability, and performance characteristics required for their intended applications.

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