• Melt Extract Stainless Steel Fiber High Carbon Copper Coated Micro for Construction System 1
  • Melt Extract Stainless Steel Fiber High Carbon Copper Coated Micro for Construction System 2
  • Melt Extract Stainless Steel Fiber High Carbon Copper Coated Micro for Construction System 3
Melt Extract Stainless Steel Fiber High Carbon Copper Coated Micro for Construction

Melt Extract Stainless Steel Fiber High Carbon Copper Coated Micro for Construction

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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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   Quick Details

  • Place of Origin: China (Mainland)

  • Model Number: HT-ST

  • Material: Steel

 

 

Specifications

High carbon Copper coated Micro steel fiber for Construction

1)Provide uniform distrubution throughout concrete with excellent mixing

2)greatly improve concrete bonding and tensile strength

3)provide exceptional load stability and durability ,

4)improve mechanical performance o concrete

5)prevent the damage to the concrete

6)decrease the danger from crack of the concrete

7)decrease the breakage when earthquake or other terrible disater happena

2850MPA High carbon Copper coated Micro steel fiber for Building

 

Commodity

Diameter (mm)

Length (mm)

Aspect Ratios

Tensile Strength( MPa)

Hook End Steel Fiber

0.5-1.0

25-60

30-100

 850- 1200

Waved Steel Fiber

0.5-1.0

25-60

30-100

 850-1200

Packing

bags or carton ,  25Kgs net each, on pallets , or as your request

Uses

industrial architecture , bridge, tunnel engineering and so on

Remarks

special Steel Fibers are available according to the buyer’s requirements(tensile strength, diameter, length etc.).

 

Picture

 

Steel fiber straight type


Steel Fiber High carbon Copper coated Micro for Construction

Steel Fiber High carbon Copper coated Micro for Construction

Steel Fiber High carbon Copper coated Micro for Construction

 

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 be used in blast-resistant concrete structures?
Yes, melt extract stainless steel fiber can be used in blast-resistant concrete structures. The use of stainless steel fibers enhances the strength and durability of concrete, making it more resistant to the impact and pressure generated by explosions. The fibers provide additional reinforcement to the concrete matrix, preventing crack propagation and enhancing the overall structural integrity of blast-resistant concrete structures.
Q: How does melt extract stainless steel fiber contribute to the crack control of concrete?
Melt extract stainless steel fiber enhances the crack control of concrete by acting as reinforcement within the material. The fibers are uniformly distributed throughout the concrete matrix, creating a three-dimensional network that helps to distribute loads and inhibit the propagation of cracks. This reinforcement improves the overall tensile strength and ductility of the concrete, reducing the formation and widening of cracks. Additionally, the stainless steel fibers can effectively bridge small cracks, preventing them from developing into larger, more significant cracks.
Q: Does melt extract stainless steel fiber improve the resistance to carbonation in concrete?
Concrete's resistance to carbonation can be improved by incorporating melt extract stainless steel fiber. Carbonation occurs when carbon dioxide from the atmosphere reacts with the alkaline components in concrete, resulting in a decrease in pH and corrosion of embedded steel reinforcement. The inclusion of stainless steel fibers in the concrete mix enhances its ability to withstand carbonation. Stainless steel fibers possess remarkable corrosion resistance properties, thanks to their high chromium content. This property renders them highly resistant to the acidic environment generated by carbonation. When dispersed throughout the concrete matrix, stainless steel fibers act as a physical barrier, hindering the infiltration of carbon dioxide into the concrete and reducing the extent of carbonation. Moreover, stainless steel fibers also enhance the durability and overall performance of the concrete. They contribute additional tensile strength and ductility, bolstering the concrete's resistance to cracks. Consequently, this prevents carbon dioxide from entering through cracks and minimizes the risk of carbonation-induced corrosion. To summarize, the incorporation of melt extract stainless steel fiber into concrete can enhance its ability to withstand carbonation. This, in turn, prolongs the lifespan of concrete structures while reducing the need for maintenance and repair.
Q: Can melt extract stainless steel fiber be used in tunnel shotcrete lining applications?
Yes, melt extract stainless steel fiber can be used in tunnel shotcrete lining applications. This type of fiber is known for its high strength, durability, and resistance to corrosion, making it suitable for reinforcing tunnel shotcrete structures.
Q: How does melt extract stainless steel fiber affect the bond strength of shotcrete to substrate?
The bond strength of shotcrete to the substrate can be greatly enhanced by utilizing melt extract stainless steel fiber. When incorporated into the shotcrete mix, these fibers aid in the even distribution of applied stresses, leading to enhanced cohesion between the shotcrete and the substrate. Within the shotcrete, the stainless steel fibers function as reinforcement, offering additional tensile strength and reducing the occurrence of cracking or delamination. This reinforcement plays a vital role in establishing a stronger bond between the shotcrete and the substrate, ultimately increasing the overall bond strength. Moreover, the exceptional properties of melt extract stainless steel fibers, including their high aspect ratio, mechanical strength, and resistance to corrosion, contribute to the improved bond strength. These fibers effectively interlock with both the shotcrete matrix and the substrate, establishing a robust and long-lasting connection. By enhancing the bond strength, melt extract stainless steel fiber also elevates the overall performance and durability of shotcrete applications. It enables better distribution of loads, heightened resistance against cracking, and improved resilience against environmental factors such as freeze-thaw cycles or chemical exposure. To summarize, the addition of melt extract stainless steel fiber significantly enhances the bond strength between shotcrete and the substrate. This improvement stems from the fiber's ability to distribute stresses, provide reinforcement, and interlock with both the shotcrete matrix and the substrate. Consequently, shotcrete applications incorporating melt extract stainless steel fiber exhibit superior performance, durability, and resistance against various external forces.
Q: Is melt extract stainless steel fiber suitable for use in architectural concrete?
Indeed, architectural concrete can benefit greatly from the utilization of melt extract stainless steel fiber. By incorporating these fibers, one can enhance the concrete structures' durability, strength, and crack resistance. Moreover, their inclusion aids in diminishing shrinkage, bolstering flexural strength, and enhancing resistance to impact and abrasion, thereby augmenting the overall performance and lifespan of architectural concrete. Furthermore, the exceptional corrosion resistance properties possessed by melt extract stainless steel fibers render them particularly well-suited for employment in architectural concrete that is subject to corrosive agents or harsh environments.
Q: Can melt extract stainless steel fiber improve the bond strength of concrete to masonry units?
Yes, melt extract stainless steel fiber can improve the bond strength of concrete to masonry units. By adding stainless steel fibers to the concrete mix, it helps to reinforce the structure and enhance the bond between the concrete and masonry units. The stainless steel fibers act as a reinforcement material, increasing the overall strength and durability of the concrete-masonry bond.
Q: The heavy steel fiber feifanshi supeiflat floor for what?
A production or storage center with higher load requirements
Q: How does melt extract stainless steel fiber improve the abrasion resistance of concrete?
Melt extract stainless steel fiber improves the abrasion resistance of concrete through several mechanisms. Firstly, the addition of stainless steel fibers increases the tensile strength of the concrete matrix, making it more resistant to cracking and spalling under abrasive forces. This is particularly important in high traffic areas or industrial settings where the concrete is subjected to heavy wear and tear. Secondly, the stainless steel fibers act as reinforcement within the concrete, forming a three-dimensional network that enhances the overall durability and toughness of the material. As a result, the concrete becomes less prone to abrasive damage and can withstand higher levels of mechanical stress. Moreover, the unique properties of stainless steel, such as its corrosion resistance and high melting point, make it an ideal material for improving abrasion resistance. Unlike traditional steel fibers, stainless steel fibers do not rust or corrode, even in aggressive environments, ensuring long-term durability of the concrete structure. Additionally, the small diameter and high aspect ratio of melt extract stainless steel fibers further contribute to the enhanced abrasion resistance. These fibers are typically very fine and evenly distributed throughout the concrete, creating a dense network that effectively resists abrasive forces and prevents the formation of cracks. Overall, the addition of melt extract stainless steel fiber to concrete improves its abrasion resistance by increasing tensile strength, providing reinforcement, imparting corrosion resistance, and optimizing the microstructure of the material. This results in a more durable and long-lasting concrete surface that can withstand heavy traffic and abrasive conditions.
Q: How does melt extract stainless steel fiber affect the curing process of concrete?
Melt extract stainless steel fiber plays a crucial role in the curing process of concrete, impacting it significantly. When integrated into the concrete mixture, these fibers disperse evenly throughout, offering reinforcement and enhancing the overall strength and durability of the cured concrete. As a reinforcement material, the stainless steel fibers strengthen the concrete's flexural strength, toughness, and resistance to cracking. This reinforcement effect is particularly advantageous in minimizing early-age cracking, plastic shrinkage cracking, and drying shrinkage cracking, which are common during the curing process. Furthermore, the stainless steel fibers improve the bond between the cement paste and aggregates, preventing internal micro-cracking and enhancing the concrete's ability to withstand stresses and loads. This improved bond also lowers the risk of delamination and spalling, thereby increasing the cured concrete's longevity and durability. Additionally, melt extract stainless steel fibers assist in controlling crack formation and propagation in the concrete. By bridging the cracks, these fibers limit their width and restrict their growth, effectively minimizing the potential for structural failure and enhancing the concrete's resistance to external forces. Moreover, the stainless steel fibers aid in managing plastic shrinkage and settlement cracking by reducing the evaporation rate of water from the concrete surface. This slower drying process enables a more controlled and uniform curing, resulting in improved overall strength and reduced permeability of the concrete. In conclusion, incorporating melt extract stainless steel fibers into concrete has a significant impact on the curing process, enhancing the concrete's strength, durability, resistance to cracking, and overall performance. These fibers provide reinforcement, improve bond strength, control crack formation, and reduce shrinkage, ultimately resulting in higher quality and longer-lasting cured concrete.

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