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Carbon Steel
as per request
as per request
| Quantity: | |
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Detailed Image:
Specification:
| Standard | Steel Grade | Size Range outer diameter×Inner diameter | |
| DIN | 2391 | ST 35 / 45 / 52/ 37.4 / 44.4 /52.4 | OD3 - 30mm × ID 1 - 12.5 mm |
| EN | 10305-1 | E235/E355 | OD3 - 30mm × ID 1 - 12.5 mm |
| DIN | 73000 | ST 35 / 45 / 52/ 37.4 / 44.4 /52.4 | OD3 - 30mm × ID 1 - 12.5 mm |
| GB/T | 3093 | 10/20/16Mn/35/45/30CrMo/42CrMo/etc | OD3 - 30mm × ID 1 - 12.5 mm |
| SAE | J529 | Low carbon steel | OD3 - 30mm × ID 1 - 12.5 mm |
| ISO | 8535 | ST 35 / 45 / 52/ 37.4 / 44.4 /52.4 | OD3 - 30mm × ID 1 - 12.5 mm |
Description:
A fuel injection steel pipe is a critical component in the fuel delivery system of internal combustion engines, commonly found in vehicles, industrial machinery, and various power generation applications. It plays a vital role in conveying fuel from the fuel tank to the engine's combustion chamber. Here's a detailed description of a fuel injection steel pipe:
1. Material Composition: Fuel injection steel pipes are typically made from high-quality steel, which is chosen for its durability, corrosion resistance, and ability to withstand the high pressures and temperatures associated with fuel delivery systems. Stainless steel or carbon steel is often used.
2. Precise Construction: These pipes are manufactured with a high degree of precision to ensure they meet strict dimensional and performance standards. They are often seamless to eliminate weak points that could lead to leaks or failures.
3. Corrosion Resistance: Due to their exposure to various types of fuel and potentially harsh environmental conditions, fuel injection steel pipes are designed to resist corrosion and degradation over time.
4. High-Pressure Handling: These pipes are engineered to handle the high pressures generated in fuel injection systems. They must be able to withstand these pressures without deformation, leakage, or other failures.
5. Internal Coating: Some fuel injection pipes may have an internal coating or lining to improve fuel flow, reduce friction, and protect against internal corrosion.
6. Leak Prevention: The construction of these pipes includes features and connections designed to prevent fuel leaks, ensuring that fuel is delivered accurately and efficiently to the engine.
7. Compatibility: Fuel injection steel pipes are designed to be compatible with various fuel types, such as gasoline, diesel, or alternative fuels, depending on the application.
8. Connection Ends: They typically have specific connection ends or fittings to link them to the fuel pump, injectors, and other components in the fuel delivery system. These connections must be secure and leak-proof.
9. Precision Bending: In automotive applications, these pipes are often precisely bent to fit the specific layout of the engine and fuel injection system.
10. Durability: Fuel injection steel pipes are built to last and are expected to perform reliably over an extended lifespan. This reliability is crucial for engine performance and safety.
11. Quality Standards: They are manufactured to meet industry and safety standards, ensuring that they function effectively and meet all necessary regulations.
Fuel injection steel pipes are a fundamental part of the modern fuel delivery system, contributing to efficient engine operation, fuel economy, and emissions control. Their design and construction are tailored to meet the demanding requirements of internal combustion engines and other applications where precise fuel delivery is essential.
Quality and Inspection
Strict measures are taken to ensure Scale free and bright tubes with high degree of internal cleanliness conducting following tests:
Salt spray Test
Tensile Test
Hydrostatic pressure Test
Eddy Current Test
Flattening, Flaring, Bending Test
Surface roughness Test
Hardness Test
Burst Test
Chemical Laboratory
Metallurgical & StereMicroscopes
Various gauges for Dimension measurements
Packing & Delivery
Detailed Image:
Specification:
| Standard | Steel Grade | Size Range outer diameter×Inner diameter | |
| DIN | 2391 | ST 35 / 45 / 52/ 37.4 / 44.4 /52.4 | OD3 - 30mm × ID 1 - 12.5 mm |
| EN | 10305-1 | E235/E355 | OD3 - 30mm × ID 1 - 12.5 mm |
| DIN | 73000 | ST 35 / 45 / 52/ 37.4 / 44.4 /52.4 | OD3 - 30mm × ID 1 - 12.5 mm |
| GB/T | 3093 | 10/20/16Mn/35/45/30CrMo/42CrMo/etc | OD3 - 30mm × ID 1 - 12.5 mm |
| SAE | J529 | Low carbon steel | OD3 - 30mm × ID 1 - 12.5 mm |
| ISO | 8535 | ST 35 / 45 / 52/ 37.4 / 44.4 /52.4 | OD3 - 30mm × ID 1 - 12.5 mm |
Description:
A fuel injection steel pipe is a critical component in the fuel delivery system of internal combustion engines, commonly found in vehicles, industrial machinery, and various power generation applications. It plays a vital role in conveying fuel from the fuel tank to the engine's combustion chamber. Here's a detailed description of a fuel injection steel pipe:
1. Material Composition: Fuel injection steel pipes are typically made from high-quality steel, which is chosen for its durability, corrosion resistance, and ability to withstand the high pressures and temperatures associated with fuel delivery systems. Stainless steel or carbon steel is often used.
2. Precise Construction: These pipes are manufactured with a high degree of precision to ensure they meet strict dimensional and performance standards. They are often seamless to eliminate weak points that could lead to leaks or failures.
3. Corrosion Resistance: Due to their exposure to various types of fuel and potentially harsh environmental conditions, fuel injection steel pipes are designed to resist corrosion and degradation over time.
4. High-Pressure Handling: These pipes are engineered to handle the high pressures generated in fuel injection systems. They must be able to withstand these pressures without deformation, leakage, or other failures.
5. Internal Coating: Some fuel injection pipes may have an internal coating or lining to improve fuel flow, reduce friction, and protect against internal corrosion.
6. Leak Prevention: The construction of these pipes includes features and connections designed to prevent fuel leaks, ensuring that fuel is delivered accurately and efficiently to the engine.
7. Compatibility: Fuel injection steel pipes are designed to be compatible with various fuel types, such as gasoline, diesel, or alternative fuels, depending on the application.
8. Connection Ends: They typically have specific connection ends or fittings to link them to the fuel pump, injectors, and other components in the fuel delivery system. These connections must be secure and leak-proof.
9. Precision Bending: In automotive applications, these pipes are often precisely bent to fit the specific layout of the engine and fuel injection system.
10. Durability: Fuel injection steel pipes are built to last and are expected to perform reliably over an extended lifespan. This reliability is crucial for engine performance and safety.
11. Quality Standards: They are manufactured to meet industry and safety standards, ensuring that they function effectively and meet all necessary regulations.
Fuel injection steel pipes are a fundamental part of the modern fuel delivery system, contributing to efficient engine operation, fuel economy, and emissions control. Their design and construction are tailored to meet the demanding requirements of internal combustion engines and other applications where precise fuel delivery is essential.
Quality and Inspection
Strict measures are taken to ensure Scale free and bright tubes with high degree of internal cleanliness conducting following tests:
Salt spray Test
Tensile Test
Hydrostatic pressure Test
Eddy Current Test
Flattening, Flaring, Bending Test
Surface roughness Test
Hardness Test
Burst Test
Chemical Laboratory
Metallurgical & StereMicroscopes
Various gauges for Dimension measurements
Packing & Delivery
