Melt Extract Stainless Steel Fiber Construction Materials Price List Bulk Buy from China Steel Fiber

Melt Extract Stainless Steel Fiber Construction Materials Price List Bulk Buy from China Steel Fiber

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Loading Port:: Tianjin

Payment Terms:: TT OR LC

Min Order Qty:: 1 m.t.

Supply Capability:: 10000 m.t./month

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Quick Details

Place of Origin: Tianjin, China (Mainland)
Model Number: 0.55
Material: Steel
Production Process: Cold drawn
Fiber Lengh: 35
Type: 1
Compressive Strength: >1200MPa
Aspect ratio: 63
Standard: ASTM A820M-11
Section Shape: Circular
Application: Concrete Reinforcement
Product Application: Industrial Floor

Packaging & Delivery

Packaging Details:	20 kg/Bag,50 bags/Pallet or 1,000kg/ Bulk Bag
Delivery Detail:	1 Month

Product Description

Diameter	0.55 mm (0.217 in)
Length	35 mm (13.780 in)
Aspect Ratio	63
Tensile strength	1200 MPa
Type	Cold drawn Steel Fiber
End	Hooked-end Steel Fiber
Glued/Loose	Glued Steel Fiber
Bending Angle	45°(min.30°)
Usage & Performance	Floor:Trafficked areas and Industrial floors
	Shotcrete :Slope stabilization and Final lining
	Precast concrete:Pipe and Railway sleepers
Packing	Standard Export Pallet Packing	Bag Packing	20 kg/Bag,50 bags/Pallet
		Bulk Packing	1,000kg/ Bulk Bag
Loading Quantity	20’GP	20-25 Tonne/Tonnes
	40’GP	25-27 Tonne/Tonnes
	40’HQ	25-27 Tonne/Tonnes
MOQ	1 kg for trial order
Supply Ability	10,000 Tonne/Tonnes per Year
Payment Terms	T/T or L/C at sight
Delivery Time	Within 15 days after receiving deposit or original L/C at sight
Certification	ISO9001:2000, CE,

Product	Diameter	Length mm/in	Aspect Ratio	Type	Packing
G-6030	0.5 mm (0.197 in)	30 mm (11.811 in)	60	Glued	20 kg/Bag, or 1,000kg/ Bulk Bag
G-6535	0.55 mm (0.217 in)	35 mm (13.780 in)	65	Glued	20 kg/Bag, or 1,000kg/ Bulk Bag
G-6035	0.6 mm (0.236 in)	35 mm (13.780 in)	60	Glued	20 kg/Bag, or 1,000kg/ Bulk Bag
G-8060	0.75 mm (0.295 in)	60 mm (23.622 in)	80	Glued	20 kg/Bag, 50 bags/Pallet
G-6060	0.9 mm (0.354 in)	60 mm (23.622 in)	60	Glued	20 kg/Bag, 50 bags/Pallet
G-6030	0.5 mm (0.197 in)	30 mm (11.811 in)	60	Loose	20 kg/Bag, or 1,000kg/ Bulk Bag
G-6535	0.55 mm (0.217 in)	35 mm (13.780 in)	65	Loose	20 kg/Bag, or 1,000kg/ Bulk Bag
G-6035	0.6 mm (0.236 in)	35 mm (13.780 in)	60	Loose	20 kg/Bag, or 1,000kg/ Bulk Bag
G-8060	0.75 mm (0.295 in)	60 mm (23.622 in)	80	Loose	20 kg/Bag, 50 bags/Pallet
G-6060	0.9 mm (0.354 in)	60 mm (23.622 in)	60	Loose	20 kg/Bag, 50 bags/Pallet

Q: Can melt extract stainless steel fiber be used in airport runway pavements?: Airport runway pavements can indeed utilize melt extract stainless steel fiber. These fibers are frequently incorporated into concrete mixtures to augment the material's mechanical qualities and longevity. By enhancing resistance to cracking, impact, and fatigue, stainless steel fibers play a vital role in the construction of airport runway pavements. This application promotes a prolonged lifespan, minimizing the risk of cracking and deterioration caused by the substantial loads of aircraft and constant traffic. Moreover, the utilization of stainless steel fibers boosts the overall strength and load-bearing capacity of the pavement, rendering it suitable for the rigorous conditions found on airport runways.

Q: What is the effect of melt extract stainless steel fiber on the modulus of creep of concrete?: The effect of melt extract stainless steel fiber on the modulus of creep of concrete is that it generally improves the creep resistance of the concrete. The fibers act as reinforcement within the concrete matrix, reducing the likelihood of creep deformation over time. This leads to a higher modulus of creep, indicating that the concrete will experience less deformation under sustained loading conditions.

Q: Can melt extract stainless steel fiber be used in marine structures for shotcrete?: Yes, melt extract stainless steel fiber can be used in marine structures for shotcrete. Stainless steel fibers offer excellent corrosion resistance, making them suitable for use in marine environments. Additionally, the fibers enhance the tensile strength and crack resistance of shotcrete, improving the durability and longevity of the marine structures.

Q: Is melt extract stainless steel fiber compatible with various types of admixtures?: Various types of admixtures can be used with melt extract stainless steel fiber, making it compatible. The versatility and compatibility of stainless steel fibers with different concrete admixtures are well known. This compatibility is a result of stainless steel's chemical properties, which provide resistance to corrosion and chemical degradation. By adding melt extract stainless steel fibers to concrete, the mechanical properties of the material are enhanced. This includes increased flexural and tensile strength, improved impact resistance, and reduced cracking. These fibers also contribute to the overall durability and longevity of the concrete. Melt extract stainless steel fibers can be utilized alongside various admixtures, such as superplasticizers, air-entraining agents, and water reducers. These admixtures are commonly employed to improve the workability, strength, and durability of concrete. The compatibility of stainless steel fibers with these admixtures allows for the customization and optimization of concrete mixes to meet specific project requirements. In conclusion, melt extract stainless steel fibers harmonize well with different types of admixtures and can be successfully incorporated into concrete mixes to enhance performance and durability.

Q: Is melt extract stainless steel fiber compatible with different types of aggregates?: Yes, melt extract stainless steel fiber is compatible with different types of aggregates.

Q: Can melt extract stainless steel fiber be used in parking garage construction?: Certainly, melt extract stainless steel fiber is a viable option for incorporating into the construction of parking garages. Concrete reinforcement often includes stainless steel fibers, as they effectively enhance the structural integrity and durability of the material. These fibers contribute to improving the tensile and flexural strength of the concrete, while simultaneously minimizing cracking and shrinkage. Moreover, they heighten the concrete's ability to withstand corrosion and abrasion. Considering the typical conditions found in parking garages, such as heavy loads, vehicle traffic, moisture, and exposure to chemicals, the inclusion of stainless steel fibers can greatly enhance the longevity and performance of the concrete. Additionally, these fibers possess the added advantage of improving the fire resistance of the concrete, which is particularly crucial in parking garages where fire safety is of utmost importance. Ultimately, melt extract stainless steel fiber is an appropriate and efficient reinforcement material for the construction of parking garages.

Q: How does the aspect ratio of melt extract stainless steel fiber affect its performance?: The aspect ratio of melt extract stainless steel fiber refers to the ratio of its length to diameter. A higher aspect ratio generally leads to improved performance of the fiber. This is because a higher aspect ratio allows for a greater surface area and better interlocking within the matrix material, resulting in enhanced mechanical properties such as increased tensile strength, improved crack resistance, and better overall reinforcement. Additionally, a higher aspect ratio can enhance the fiber's ability to distribute stress evenly, leading to improved durability and longevity.

Q: How is melt extract stainless steel fiber manufactured?: Melt extract stainless steel fibers are created using a specialized method that involves melting stainless steel alloys and extracting the molten metal into tiny fibers. To begin the manufacturing process, high-quality stainless steel alloys, which consist of iron, chromium, nickel, and other elements, are chosen. Initially, the selected stainless steel alloys are heated to extremely high temperatures until they reach their melting point. This is typically done in either a furnace or an electric arc melting system. Once the alloys have completely melted, they are prepared for the extraction process. Next, the molten stainless steel is forced through a series of fine spinnerets or nozzles at high speeds. These spinnerets have small openings that allow the molten metal to pass through and form continuous fibers. The diameter of the resulting stainless steel fibers is determined by the size of the spinneret openings. As the molten stainless steel exits the spinnerets, it rapidly cools down and solidifies into solid fibers. These fibers are then collected and undergo further processing to eliminate any impurities or contaminants. This purification can be achieved through mechanical means like air jets or chemical methods such as acid washing or pickling. Once the fibers are clean and pure, they are usually cut into shorter lengths based on the desired application. The final product can vary in length depending on the specific needs of the end user, ranging from a few millimeters to several centimeters. In conclusion, the manufacturing process of melt extract stainless steel fibers involves melting stainless steel alloys, extracting them through spinnerets, cooling and solidifying the fibers, purifying them, and cutting them into desired lengths. This manufacturing process guarantees the production of top-quality stainless steel fibers that can be utilized in various applications, including concrete reinforcement, thermal insulation, and electromagnetic shielding.

Q: Does melt extract stainless steel fiber improve the resistance to carbonation of concrete?: Yes, melt extract stainless steel fiber can improve the resistance to carbonation of concrete. The addition of these fibers helps to enhance the durability and lifespan of concrete by reducing its permeability to carbon dioxide, which in turn minimizes the risk of carbonation and subsequent corrosion of the reinforcing steel.

Q: Does melt extract stainless steel fiber affect the electrical conductivity of concrete?: Yes, melt extract stainless steel fiber can affect the electrical conductivity of concrete. Stainless steel fibers, when added to concrete, can improve its electrical conductivity. The presence of stainless steel fibers creates a conductive network within the concrete matrix, allowing for the flow of electrical current. This enhanced electrical conductivity can be beneficial in applications where electrical grounding or conductivity is required, such as in the construction of electrostatic discharge (ESD) flooring or in the production of conductive concrete for electromagnetic shielding purposes. However, it is important to note that the actual impact on electrical conductivity will depend on various factors, including the dosage and distribution of the stainless steel fibers within the concrete mixture.

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