• Carbon C50 Steel Round Bars Low Carbon Bar System 1
  • Carbon C50 Steel Round Bars Low Carbon Bar System 2
  • Carbon C50 Steel Round Bars Low Carbon Bar System 3
Carbon C50 Steel Round Bars Low Carbon Bar

Carbon C50 Steel Round Bars Low Carbon Bar

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Loading Port:
Tianjin
Payment Terms:
TT OR LC
Min Order Qty:
25 m.t.
Supply Capability:
50000 m.t./month

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Item specifice

Type:
Carbon Steel
Shape:
Steel Round Bar

Carbon C50 Steel Round Bars Low Carbon Bar    

 

Product details:

Name:Carbon C50 Steel Round Bars Low Carbon Bar 

      Place of Origin:Liaoning,China    Brand Name:Dongbei Tegang   

      Shape:round bar                              Material: Alloy Structural Steel    

      Steel Grade: AISI 1050/JIS S50C/DIN C50/GB 50

      Size:Diameter:16mm~300mm

      Application:used in making high strengthened and wear resistant parts that works under high pressure, like axle, spring ring, axletree, cam, and steel sling etc.

 

Chemical Composition:

C

Si

Mn

Cr

Ni

Cu

P

S

0.47-0.53

0.17-0.37

0.50-0.80

≤0.25

≤0.30

≤0.35

≤0.035

≤0.035

 

Characteristics:

- High hardness, strength and toughness.

- Poor plasticity during cold deformation.

- Medium machinability. 

- Poor weldability.

- Poor hardenability. 

- Cracks is often caused during water quenching process.

- Large parts should be in normalizing treatment.

 

Application:

S50C structural carbon steel bar /1050 /50/C50 can be used to be manufactured roller, shaft, tyre, spring ring, damping spring, clutch and steel wire rope, etc.

 

Product Show:

Carbon C50 Steel Round Bars Low Carbon Bar

Carbon C50 Steel Round Bars Low Carbon Bar

Carbon C50 Steel Round Bars Low Carbon Bar

 

Q:How does special steel perform in terms of thermal conductivity?
Special steel typically has lower thermal conductivity compared to other materials like aluminum or copper. This means that it is not as efficient in conducting heat, but it can still be used in applications where high temperatures need to be controlled or insulated, such as in industrial furnaces or high-temperature equipment.
Q:How is maraging steel used in the production of rocket and missile components?
Maraging steel is commonly used in the production of rocket and missile components due to its exceptional strength, toughness, and resistance to corrosion. Its unique properties allow for the creation of lightweight yet highly durable parts, such as rocket nozzles, casings, and guidance systems. Additionally, maraging steel can withstand extreme temperatures and pressures, making it suitable for the demanding conditions of space and military applications.
Q:How does special steel resist corrosion?
Special steel resists corrosion due to the presence of specific alloying elements, such as chromium or nickel, which form a protective layer on the surface of the steel. This layer acts as a barrier, preventing oxygen and moisture from reaching the underlying steel and thus preventing the formation of rust or corrosion.
Q:How is special steel used in the production of bearings?
Special steel is used in the production of bearings because it offers superior strength, hardness, and corrosion resistance properties. This type of steel ensures the bearings can handle heavy loads, high speeds, and harsh operating conditions. Additionally, special steel allows for precise machining and ensures accurate dimensions, resulting in durable and reliable bearings used in various industries, including automotive, aerospace, and manufacturing.
Q:How is special steel used in the marine supply chain?
Special steel is widely used in the marine supply chain for various applications. It is commonly used in the construction of ships and offshore structures due to its high strength, corrosion resistance, and durability. Special steel is used for manufacturing ship hulls, propeller shafts, engine components, and other critical parts that require exceptional strength and resistance to harsh marine environments. Additionally, special steel is utilized in the production of marine equipment such as anchors, chains, wire ropes, and connectors, ensuring their reliability and safety in maritime operations.
Q:What are the different applications of special steel in the construction industry?
Special steel has various applications in the construction industry, including the production of structural elements like beams and columns, reinforcing bars, and fasteners. It is also used in the manufacturing of high-strength and corrosion-resistant components for bridges, high-rise buildings, and infrastructure projects. Additionally, special steel finds application in the construction of offshore platforms, pipelines, and other critical structures that require exceptional durability and performance.
Q:What are the main applications of special steel in the packaging industry?
Special steel is widely used in the packaging industry for a range of applications. One of the main uses is in the manufacturing of packaging machinery, such as filling machines, sealing machines, and wrapping machines, where the high strength and durability of special steel components ensure smooth operation and longevity. Additionally, special steel is utilized for the production of packaging tools, like cutters, blades, and molds, which require resistance to wear and corrosion. The use of special steel in the packaging industry helps to enhance productivity, improve product quality, and ensure the safety and integrity of packaged goods.
Q:How is special steel used in the production of automotive springs?
Automotive springs, including suspension springs and valve springs, require special steel due to its unique properties that make it perfect for this purpose. Special steel, also called alloy steel, is specifically designed to have superior mechanical properties compared to regular steel. By adding alloying elements like chromium, nickel, or molybdenum, its strength, hardness, and resistance to wear and fatigue are improved. When it comes to producing automotive springs, special steel is used to create springs capable of withstanding the demanding conditions of the vehicle's suspension system. These springs must not only absorb and distribute the vehicle's weight but also provide a smooth and comfortable ride. The exceptional strength of special steel allows automotive springs to handle heavy loads without deforming or breaking. This is crucial for maintaining vehicle stability and safety, especially on rough roads or when carrying heavy loads. Furthermore, special steel's fatigue resistance is vital in the production of automotive springs. Over the vehicle's lifespan, these springs undergo millions of compression and expansion cycles. The fatigue resistance of special steel ensures that the springs can maintain their performance and reliability over an extended period. Moreover, special steel's resistance to wear and corrosion is highly advantageous in automotive applications. Springs are exposed to various environmental elements like moisture, dirt, and chemicals, which can cause corrosion and deterioration. The corrosion resistance of special steel helps prolong the lifespan of automotive springs and maintains their functionality. In conclusion, the use of special steel in manufacturing automotive springs guarantees that these crucial components can endure heavy loads, repetitive stress, and high temperatures. Its superior mechanical properties, including strength, fatigue resistance, and corrosion resistance, make it the ideal material for automotive springs, enhancing the overall performance and durability of vehicles.
Q:How does special steel comply with international standards?
Special steel is a type of steel that is specifically designed and manufactured to possess exceptional properties and performance characteristics. When it comes to complying with international standards, special steel undergoes a rigorous process to ensure its quality and adherence to the established norms. Firstly, special steel production adheres to international standards through the selection of raw materials. The composition and quality of the raw materials used in the manufacturing process are carefully controlled and tested to meet the specifications outlined by international standards organizations. This ensures that the special steel produced is of the desired quality and possesses the required mechanical properties. Secondly, special steel manufacturers follow standardized production processes. These processes are designed in accordance with international guidelines and standards to guarantee consistency and traceability. Through the use of advanced technologies and quality control measures, special steel manufacturers can monitor and control every stage of production, from melting and casting to rolling and heat treatment. This ensures that the final product meets the required standards in terms of chemical composition, mechanical properties, and dimensional tolerances. Furthermore, special steel undergoes stringent testing and inspection procedures to validate its compliance with international standards. This includes various destructive and non-destructive testing methods such as ultrasonic testing, hardness testing, and microstructure analysis. These tests are conducted by certified laboratories and independent third-party agencies to ensure unbiased and accurate results. In addition, special steel manufacturers often have their production processes and quality management systems audited and certified by recognized bodies, such as ISO (International Organization for Standardization), to demonstrate their commitment to compliance with international standards. It is also worth mentioning that special steel manufacturers actively participate in international standardization committees, such as ASTM International and the International Organization for Standardization (ISO). By engaging in these committees, they can contribute to the development and revision of international standards, ensuring that their products remain up to date and in line with the latest industry requirements. In conclusion, special steel complies with international standards through careful selection of raw materials, adherence to standardized production processes, rigorous testing and inspection procedures, and active participation in international standardization committees. By following these measures, special steel manufacturers demonstrate their commitment to producing high-quality products that meet the stringent requirements of international standards.
Q:What are the common challenges in heat treating titanium alloys?
Some common challenges in heat treating titanium alloys include the high reactivity of titanium with oxygen and other elements, the need for precise temperature control due to the narrow range of heat treatments, and the potential for distortion or warping of the material during the heat treatment process.

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