Steel Fiber Reinforced Plastic Steam Thermal Insulating Steel Pipe

Steel Fiber Reinforced Plastic Steam Thermal Insulating Steel Pipe System 1

Steel Fiber Reinforced Plastic Steam Thermal Insulating Steel Pipe

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Loading Port:: Tianjin

Payment Terms:: TT OR LC

Min Order Qty:: 5 kg

Supply Capability:: 30000 kg/month

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Specifications

1	Outer Diameter	10mm-630mm
2	Wall Thickness	2mm-22mm
3	Length	5M-12M
4	Standard	GB/T13793-1992, GB/T3091-2001, GB/T9711.1-1997, API 5L, API 5CT, EN10217, EN10219, ASTM A53 We negotiate the technology agreement about materials.
5	Material	Q195-Q235, 20# , Q345(B/C) L175-L555 (A/B,X42-X80), J55, K55 N80, L80 C90,C95 P110 Q125
6	Application	Widely used in transportation of natural gas, conveyance of liquid oil and a series of gas and liquid,‍ and also used in the fields of aerospace, energy, electronics, automobile, light industry, etc. It’s one of the most important technologies in the world.
7	Packing	thermal insulation; Plastic caps can be added on both ends of pipes; Pipe are bundled into hexagonal shape with steel wires or Steel strips; adding plastic or nylon braided bag; Other ways of packing can be made according to customer’s requirements.
8	Day of Delivery	15-30 days or according to the order’s quantity.
9	Terms of Payment	T/T
10	Minimum Order Quantity	10Ton

Picture

Steel fiber straight type

Steel Fiber Reinforced Plastic Steam Thermal Insulating Steel Pipe

FAQ

certificated: ISO 9001

Technical advantages of Daye steel fiber:
A. Improve mechanical performance of concrete
B. Provide uniform distribution throughout concrete with excellent mixing
C. No balling or caking by adopt correct mixing method

D. Reduce concrete volume

E.Save construction time and cost

F.Reduce excavation volume

G.Available for jointless floor.

Q:Can melt extract stainless steel fiber improve the resistance of concrete to impact loads?: Yes, melt extract stainless steel fiber can improve the resistance of concrete to impact loads. Stainless steel fibers are known for their high tensile strength, durability, and ability to enhance the mechanical properties of concrete. When added to concrete mixtures, stainless steel fibers can help to distribute the applied load more evenly and prevent crack propagation, which in turn improves the resistance of concrete to impact loads. The fibers act as reinforcement within the concrete matrix, effectively increasing its resistance to impact and enhancing its overall toughness. Additionally, melt extract stainless steel fibers have a high melting point, which allows them to maintain their structural integrity even under extreme temperatures or rapid heating. This further contributes to the improved impact resistance of concrete. Overall, the addition of melt extract stainless steel fibers can significantly enhance the ability of concrete to withstand impact loads and improve its overall performance in applications where impact resistance is critical, such as industrial floors, pavements, and high-traffic areas.

Q:Is melt extract stainless steel fiber compatible with all types of aggregate?: No, melt extract stainless steel fiber is not compatible with all types of aggregate. The compatibility depends on various factors such as the composition and characteristics of the aggregate, the application requirements, and the specific properties of the fiber. It is important to consider the compatibility and performance of the fiber and aggregate combination in terms of bonding, dispersion, and overall effectiveness in achieving the desired performance. It is recommended to consult with experts or manufacturers to determine the compatibility of melt extract stainless steel fiber with different types of aggregate for specific applications.

Q:How does the dosage of melt extract stainless steel fiber affect its performance in concrete?: The dosage of melt extract stainless steel fiber has a significant impact on its performance in concrete. The dosage refers to the amount of fiber added to the concrete mixture, and it affects various properties of the concrete, including its strength, durability, and crack resistance. When the dosage of stainless steel fiber is increased, it leads to an increase in the overall tensile strength of the concrete. This is because the fibers act as reinforcement, distributing the tensile forces and preventing the formation and propagation of cracks. Higher dosages of stainless steel fiber can significantly improve the flexural strength of the concrete, making it more resistant to bending and reducing the risk of failure under load. Additionally, the dosage of stainless steel fiber affects the concrete's durability. By increasing the dosage, the concrete becomes more resistant to chemical attacks, such as corrosion from chloride ions or sulfate attack. This is due to the protective barrier created by the stainless steel fibers, which inhibit the penetration of harmful substances into the concrete matrix. Moreover, the dosage of stainless steel fiber influences the crack resistance of the concrete. Fibers provide bridging effects across cracks, preventing them from widening and reducing crack propagation. Higher dosages of stainless steel fiber can enhance the crack control ability of the concrete, resulting in improved overall performance and service life. However, it is essential to note that there is an optimal dosage range for melt extract stainless steel fiber. Excessive dosage can lead to issues such as fiber balling, which hinders proper dispersion in the concrete mixture. This can negatively impact the workability of the concrete and may result in an uneven distribution of fibers, compromising their effectiveness. In conclusion, the dosage of melt extract stainless steel fiber significantly affects its performance in concrete. By increasing the dosage within the optimal range, the concrete's tensile strength, durability, and crack resistance can be improved. Careful consideration of the dosage is crucial to achieving the desired concrete properties while avoiding potential issues associated with excessive fiber content.

Q:Can melt extract stainless steel fiber be used in high-strength concrete?: Yes, melt extract stainless steel fiber can be used in high-strength concrete. These fibers enhance the strength and durability of the concrete by providing reinforcement and preventing crack propagation. They also improve the resistance to impact, abrasion, and fatigue, making them suitable for high-strength concrete applications.

Q:What is the recommended fiber length for melt extract stainless steel fiber in concrete?: The fiber length for melt extract stainless steel fiber in concrete is typically recommended to be between 25mm and 50mm. This particular fiber length is considered optimal for enhancing the mechanical properties and durability of concrete. It contributes to the improvement of tensile strength, flexural strength, and impact resistance, resulting in a concrete that is less prone to cracking and performs better overall. Moreover, this fiber length ensures that the fibers are properly dispersed and distributed throughout the concrete matrix, resulting in a more uniform reinforcement throughout the structure. However, it is important to acknowledge that the specific fiber length may vary depending on the application and design requirements. Therefore, it is advisable to consult with a structural engineer or refer to the manufacturer's guidelines for accurate recommendations.

Q:How does melt extract stainless steel fiber affect the plastic shrinkage of concrete?: Melt extract stainless steel fiber can significantly reduce the plastic shrinkage of concrete. The fibers act as reinforcing elements, improving the overall tensile strength and reducing the development of cracks during the plastic stage of concrete. This helps to minimize shrinkage and improve the overall durability and performance of the concrete.

Q:Can melt extract stainless steel fiber be used in high-rise or tall buildings?: Indeed, melt extract stainless steel fiber holds applicability in high-rise or tall buildings. Renowned for its robustness and enduring nature, this particular fiber proves fitting for constructions necessitating an elevated degree of structural soundness. Moreover, stainless steel fibers exhibit exceptional resistance to corrosion, fire, and extreme temperatures, all of which represent vital considerations when erecting towering edifices. By incorporating melt extract stainless steel fiber, the overall fortitude and steadiness of the building can be augmented, guaranteeing both its structural integrity and safety.

Q:How does melt extract stainless steel fiber improve the durability of concrete?: Melt extract stainless steel fiber improves the durability of concrete in several ways. Firstly, the addition of stainless steel fibers to concrete enhances its tensile strength and flexural properties. This means that the concrete becomes more resistant to cracking and can withstand higher levels of stress and load. The fibers act as reinforcement within the concrete matrix, effectively bridging any cracks that may occur and preventing them from propagating further. Moreover, stainless steel fibers also improve the impact resistance of concrete. The fibers absorb and distribute the impact energy, reducing the likelihood of surface spalling or fragmentation. This makes the concrete more durable and able to withstand heavy impacts or dynamic loading conditions. Additionally, stainless steel fibers enhance the resistance of concrete to corrosion. These fibers are made from stainless steel, which is highly resistant to rust and other forms of corrosion. By incorporating stainless steel fibers into the concrete mix, it creates a protective barrier against aggressive chemicals, moisture, and other environmental factors that can cause corrosion and deterioration. This significantly extends the lifespan of the concrete structure and reduces the need for costly repairs or replacements. In summary, melt extract stainless steel fiber improves the durability of concrete by enhancing its tensile strength, flexural properties, impact resistance, and corrosion resistance. This ultimately leads to a longer-lasting and more resilient concrete structure that can withstand harsh conditions and heavy use.

Q:What is the recommended mix design when using melt extract stainless steel fiber in concrete?: Achieving an optimal mix design for concrete with melt extract stainless steel fiber involves finding a balance between workability, strength, and durability. First and foremost, consideration must be given to the dosage of the fiber. The recommended dosage typically falls within the range of 25 to 75 kg/m3, depending on the desired concrete properties. Higher dosages improve crack resistance and impact strength, while lower dosages may suffice for enhancing flexural strength. Regarding the proportions of the concrete mix, it is advisable to increase the content of cementitious materials, such as cement or fly ash, to ensure proper bonding between the stainless steel fibers and the concrete matrix. This promotes better dispersion and distribution of the fibers throughout the concrete. To maintain workability, the use of superplasticizers or water reducers can be advantageous. These chemical admixtures enhance the flowability of the concrete while reducing water content, thus minimizing the risk of fiber balling or clumping. Furthermore, adequate curing of the concrete containing melt extract stainless steel fibers is crucial. Proper moist curing or the application of curing compounds helps prevent early-age shrinkage and drying shrinkage, thereby enhancing the overall durability of the concrete. Ultimately, the recommended mix design for concrete with melt extract stainless steel fiber may vary depending on specific project requirements, including desired strength, durability, and application. It is advisable to consult with a qualified engineer or concrete specialist to determine the most suitable mix design for a particular project.

Q:What are the main points of construction of steel fiber reinforced concrete?: About the construction points of steel fiber reinforced concrete, roughly speaking from the following five aspects:1. steel fiber dispersion deviceFirst, the steel fiber shall be taken into and dispersed. By dispersing device device into a stirrer. By dispersing device can avoid the agglomeration phenomenon. Other materials and engineering should be required in the uniform mixing of steel fiber into a blender.

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