Prime Steel Billet Q275, 20MnSi, 5SP，Q235 for good sale

Prime Steel Billet Q275, 20MnSi, 5SP，Q235 for good sale System 1

Prime Steel Billet Q275, 20MnSi, 5SP，Q235 for good sale

Ref Price:

Loading Port:: Tianjin

Payment Terms:: TT OR LC

Min Order Qty:: 1000 m.t.

Supply Capability:: 20000 m.t./month

Inquire Now

Chat Online

Add to My Favorites

OKorder Service Pledge

Quality Product, Order Online Tracking, Timely Delivery

OKorder Financial Service

Credit Rating, Credit Services, Credit Purchasing

You Might Also Like

Square Steel Billet 150mm

Carbon Steel Billets Square Billets High Quality

Steel Billet Manufactured by Blast Furnace

Continue Casting Steel Bloom by Blast Furnace

Steel Bloom/Billet Manufactured by Blast Furnace

Prime Steel Billet Q275, 20MnSi, 5SP，Q235 for sale

Square Steel Billet Q235 Grade Prime Quality 7#

Square Steel Billet Q235 3SP Grade Prime Quality 6#

STEEL BILLET

1.Brief description

Steel billet(ingot) by cogging or breakdown of semi-finished products, is the raw material of all kinds of steel mill. Billet section of square, round, flat, rectangular and abnormity of several kinds of, mainly related to the shape of rolled products.

2.Features

Rectangular billet continuous casting billet and mainly general carbon steel, low carbon low silicon cold-rolled material, high quality carbon structural steel, high strength low alloy steel, special steel, etc.

The billet is mainly divided into two kinds from the shape:

Slab: cross section width and height of the ratio of the larger, mainly used for rolling plate.

Billet: equal cross section width and height, or a huge difference, mainly used for rolling steel, wire rod. ,

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.

3.Processing

Steel billets are considered fresh and raw, and they must undergo a series of manufacturing processes before they can be used for various purposes. Billets are made by means of freezing molten liquid, and are later exposed to extremely low temperatures in order to allow the metal to take shape and solidify in chemical structure. The temperature manipulates the metal's physical properties, and tones its strength and durability. The subsequent processes provide the metal's curved mold design so that it can fit the allotted space provided by other machines, which complete the finishing procedures.

4.Pictures

Prime Steel Billet Q275, 20MnSi, 5SP，Q235 for good sale

5.Usage

Billets, or ingots (as they sometimes referred to), are not of practical use until they have been formed into more functional shapes and sizes. While they have already been put in the furnace, they still require a series of shaping and molding procedures such as hot and cold working, milling and cutting before they are sold in hardware stores, or used for different applications. The unformed billets, however, can be used in striking currency such as coins and as reserves, similar to gold bars.

6.Detailed specification

Hot rolled billet steel

Size: 50x50mm-180x180mm

Steel Grade: 3SP, 5SP,Q195,Q235,Q255,Q275 Length:3m-12m

MOQ: 1000MT/size

Payment term: TT or LC

Packing: in bulk , bundle

Shipment: by container , bulk vessel

Packaging Details: bundles with steel strips or as customers's requirements

Delivery time: 15-30 days after the deposit

Loading port:Tianjin, or other port China

Origin : China

Inspection:Third party inspection before loading.

Q:How are steel billets used in the production of seamless tubes?: Seamless tubes production heavily relies on steel billets as a crucial raw material. At the initial stage of the manufacturing process, these billets are utilized for the formation of seamless tubes through hot rolling or extrusion. Initially, steel billets undergo high-temperature heating to enhance their malleability. This heating process, known as hot rolling, facilitates easy shaping and manipulation of the billets. Following this, the heated billets are passed through a series of rollers or extrusion dies, transforming them into a cylindrical shape, which serves as the fundamental structure of a seamless tube. The rolling or extrusion process subjects the steel billets to significant deformation. The pressure exerted by the rollers or dies induces the flow of metal and fills the cavities, resulting in the creation of seamless tubes. The dimensions and specifications of the final seamless tube are determined by the size and shape of the billets. In addition, steel billets contribute significantly to the mechanical properties of the seamless tubes. The quality and composition of the billets play a crucial role in determining the strength, durability, and resistance to corrosion of the tubes. Proper selection and quality control of the billets are imperative to ensure the production of seamless tubes that meet industry standards and customer requirements. To summarize, steel billets are indispensable in the production of seamless tubes. Through the processes of heating, shaping, and forming via hot rolling or extrusion, steel billets are transformed into seamless tubes with specific dimensions and mechanical properties. These high-quality seamless tubes find extensive applications in industries such as oil and gas, automotive, construction, and manufacturing.

Q:How are steel billets used in the manufacturing of shipbuilding components?: The manufacturing of shipbuilding components relies heavily on steel billets, which are indispensable raw materials. These components, including hulls, decks, bulkheads, and other structural parts, are crucial for ship construction. To begin the process, steel billets are heated in a furnace to a specific temperature, rendering them malleable. This crucial step, known as hot rolling, allows the billets to be shaped into the desired forms and sizes required for shipbuilding components. In addition to shaping, hot rolling also enhances the mechanical properties of the steel, making it stronger and more durable. Once the billets are heated and shaped, they undergo further processing through various techniques such as forging, extrusion, or casting, depending on the specific shipbuilding components needed. For instance, steel billets can be forged to create large and intricate parts like ship propellers or rudders. Extrusion, on the other hand, is employed to form long and continuous shapes like shipbuilding beams or pipes. Casting is utilized for intricate components such as engine parts or valves. Following the initial shaping process, the steel components go through various finishing operations including machining, welding, and surface treatment. Machining ensures the achievement of precise dimensions and smooth surfaces necessary for the proper fitting and functioning of shipbuilding components. Welding is employed to join different steel components together, ensuring structural integrity and strength. Surface treatment techniques such as painting or galvanizing are applied to protect the components from corrosion and extend their lifespan. Overall, steel billets are of utmost importance in shipbuilding as they serve as the essential raw material for manufacturing a wide range of components. Their versatility, strength, and durability make them ideal for constructing ships that can withstand the harsh marine environment. By utilizing steel billets along with advanced manufacturing techniques, high-quality shipbuilding components that adhere to stringent industry standards can be produced.

Q:What are the different types of steel billet cutting tools?: There are several types of steel billet cutting tools, including circular saws, band saws, abrasive saws, and torches.

Q:How are steel billets used in the manufacturing of pipes and tubes?: Steel billets are a necessary component in the production of pipes and tubes. These billets, typically rectangular or square in shape, act as the starting point for the manufacturing process. Initially, they are heated to a high temperature to increase their malleability and facilitate shaping. After heating, the billets are passed through a sequence of rollers, gradually transforming them into a cylindrical shape. This hot rolling process refines the structure and enhances the mechanical properties of the steel. Moreover, it guarantees consistent dimensions throughout the length of the billet. Subsequently, the billets undergo further processing through cold rolling and sizing operations. Cold rolling reduces thickness and enhances the surface finish, while sizing operations ensure that the final product meets the necessary specifications in terms of diameter, wall thickness, and length. Once shaped and sized, the billets are cut into specific lengths and fused together to create seamless or welded pipes and tubes. Electric resistance welding (ERW), submerged arc welding (SAW), or other welding techniques are employed to join the ends of the billets. This results in a continuous and durable joint, ensuring the integrity and strength of the pipe or tube. The last phase of the manufacturing process involves various finishing operations, including heat treatment, straightening, and inspection. Heat treatment further improves the mechanical properties of the pipe or tube, while straightening guarantees a uniform shape without any deformations. Inspection is carried out to ensure that the pipes or tubes meet the required quality standards and specifications. In conclusion, steel billets play a vital role in the production of pipes and tubes. They undergo hot and cold rolling processes, are welded together, and subjected to finishing operations to create high-quality, dependable pipes and tubes.

Q:How are steel billets used in the manufacturing of medical equipment?: Steel billets are an essential raw material used in the manufacturing of medical equipment. These billets are semi-finished steel products that serve as a starting point for various manufacturing processes. In the medical equipment industry, steel billets are utilized to produce a wide range of components and devices that are crucial for healthcare professionals and patients. Firstly, steel billets are often transformed into stainless steel through a process called stainless steel casting. Stainless steel is highly desirable in medical equipment manufacturing due to its excellent corrosion resistance, durability, and hygienic properties. It is commonly used in the production of surgical instruments, such as scalpels, forceps, and scissors, as well as implantable devices like orthopedic implants, pacemakers, and stents. Furthermore, steel billets are also used to manufacture medical equipment components through precision machining. These billets are machined into various shapes and sizes, allowing the production of parts like connectors, valves, brackets, and frames for medical devices and equipment. Precision machining ensures that these components meet the strict quality and dimensional requirements necessary for medical applications. In addition, steel billets are employed in the production of medical equipment casings and enclosures. These components provide protection and support for sensitive internal components, ensuring the durability and longevity of medical devices. Steel billets are often used to create casings for devices like X-ray machines, CT scanners, and MRI machines, as well as smaller equipment like infusion pumps and monitors. Overall, steel billets play a vital role in the manufacturing of medical equipment by providing the necessary raw material for the production of components, casings, and instruments. The inherent properties of steel, such as strength, durability, and corrosion resistance, make it an ideal material for medical applications. The use of steel billets ensures the production of high-quality, reliable, and safe medical equipment that is essential for the healthcare industry.

Q:How are steel billets used in the manufacturing of marine components?: Due to their strength, durability, and versatility, steel billets are indispensable raw materials utilized in the production of marine components. Essentially, steel billets are semi-finished steel products that are cast into specific shapes, typically squares or rectangles, via continuous casting. These billets serve as the initial stage for a variety of marine components. Hot rolling is a primary method employed in the manufacturing of marine components using steel billets. In this process, the steel billet is heated to high temperatures and then passed through a series of rollers to shape it into the desired form. This can involve transforming the billet into rods, bars, beams, or other structural shapes commonly utilized in marine applications. Forging is another technique employed in the manufacturing of marine components using steel billets. This process involves heating the billet to high temperatures and subsequently applying pressure to shape it into the desired form. Forging is commonly employed to manufacture marine components such as propeller shafts, crankshafts, and other high-strength parts that necessitate precise shaping and exceptional mechanical properties. Furthermore, steel billets can be utilized in the manufacturing of marine components through the process of machining. Machining entails the removal of material from the billet using various cutting tools to create intricate shapes and features. This method is commonly employed to produce marine components such as valves, fittings, and other precision parts that require meticulous tolerances and intricate designs. In conclusion, steel billets play a pivotal role in the manufacturing of marine components. Their strength, durability, and versatility make them an ideal raw material for producing various marine parts through processes such as hot rolling, forging, and machining. By utilizing steel billets, manufacturers can ensure that the marine components they produce are capable of withstanding the harsh conditions and demanding requirements of the marine environment.

Q:How are steel billets used in the manufacturing of agricultural machinery parts?: Steel billets serve as a crucial raw material for the production of agricultural machinery parts. These billets are essentially semi-finished steel products that act as a starting point for various manufacturing processes. To begin with, steel billets are molded into specific shapes using a range of techniques such as casting, rolling, or extrusion. These processes facilitate the transformation of solid billets into desired forms like bars, rods, or sheets, which then serve as the foundational materials for agricultural machinery parts. After the billets have been shaped, they undergo further refinement through machining, cutting, and welding procedures to create precise components for agricultural machinery. For instance, billets can be machined into shafts, gears, or axles that are integral to the functioning of these machinery parts. Furthermore, the robustness and durability of steel billets make them well-suited for use in heavy machinery like tractors, combines, or harvesters. Agricultural machinery parts manufactured from steel billets possess exceptional tensile strength, resistance to wear and tear, and the ability to withstand the demanding conditions encountered in the agricultural sector. Moreover, steel billets can be subjected to heat treatment to enhance their mechanical properties, such as hardness or toughness, thereby making them more resilient and capable of enduring substantial loads and extreme conditions. This makes them an ideal choice for agricultural machinery parts that frequently encounter intense forces during operation. Additionally, steel billets can be utilized in the production of precision components, such as bearings or bushings, which are vital for the smooth and efficient operation of agricultural machinery. The dimensional accuracy and consistency of steel billets ensure that these precision parts fit flawlessly and perform effectively. Overall, steel billets play a pivotal role in the manufacture of agricultural machinery parts. Their versatility, strength, and ability to be shaped and processed make them an indispensable material in the production of components that can withstand the demanding and challenging conditions prevalent in the agricultural industry.

Q:How are steel billets used in the production of wire rods?: Steel billets are used in the production of wire rods as they serve as the initial semi-finished product that undergoes further processing. These billets are heated and then passed through a series of rolling mills, where they are transformed into wire rods of desired shapes and sizes. The rolling process helps to reduce the billet's cross-sectional area, elongate it, and improve its mechanical properties. Once the wire rods are produced, they can be further processed or used directly in various industries, such as construction, automotive, and manufacturing.

Q:What are the main factors affecting the formability of steel billets?: The main factors affecting the formability of steel billets are the composition and microstructure of the steel, the temperature at which the forming process takes place, and the mechanical properties of the steel, such as its yield strength and ductility.

Q:How do steel billets contribute to the manufacturing of telecommunications devices?: Steel billets play a significant role in the manufacturing of telecommunications devices in several ways. Firstly, steel billets serve as a raw material for the production of various components used in telecommunications devices. These components include structural frames, housing, brackets, and mounts, among others. The strength and durability of steel make it an ideal choice for these parts, as they need to withstand harsh environments and provide stability to the devices. Furthermore, steel billets are often used in the production of transmission towers and antenna masts, which are essential for the efficient transmission and reception of signals in the telecommunications industry. These towers and masts need to be sturdy and capable of supporting heavy equipment to ensure uninterrupted communication. Steel, with its high strength and load-bearing capacity, is an ideal material for such applications. Moreover, steel billets are also used in the manufacturing of cable trays and conduits that are essential for organizing and protecting the various cables used in telecommunications devices. These cable management systems ensure that the cables are properly routed and protected from external factors such as moisture, heat, and physical damage. Steel's resistance to corrosion and its ability to withstand extreme conditions make it an excellent choice for these purposes. In addition to its physical properties, steel billets contribute to the manufacturing of telecommunications devices due to their cost-effectiveness. Steel is widely available and relatively inexpensive compared to other materials, making it a preferred choice for manufacturers. Its versatility and ease of fabrication also contribute to the efficient production of telecommunications devices. Overall, steel billets play a crucial role in the manufacturing of telecommunications devices by providing raw materials for various components, supporting infrastructure, and ensuring efficient cable management. Their strength, durability, cost-effectiveness, and availability make them an indispensable material in the telecommunications industry.

1. Manufacturer Overview
Location
Year Established
Annual Output Value
Main Markets
Company Certifications

2. Manufacturer Certificates
a) Certification Name
Range
Reference
Validity Period

3. Manufacturer Capability
a)Trade Capacity
Nearest Port
Export Percentage
No.of Employees in Trade Department
Language Spoken:
b)Factory Information
Factory Size:
No. of Production Lines
Contract Manufacturing
Product Price Range