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The Bending Blade is a high-performance tool engineered for precision metal bending and forming applications. Crafted from premium-grade alloy steel, this blade undergoes advanced heat treatment and hardening processes, ensuring exceptional strength, wear resistance, and durability. Its precision-ground edges and optimized geometry allow for accurate and consistent bends, minimizing material deformation and ensuring high-quality results.
One of the standout technical features of the Bending Blade is its ability to handle a wide range of materials, including steel, aluminum, and stainless steel, across varying thicknesses. The blade’s robust construction ensures stability and longevity, even under high-stress conditions, reducing the need for frequent replacements. Additionally, its compatibility with various press brakes and bending machines makes it a versatile choice for diverse industrial applications.
The Bending Blade offers significant advantages, including improved bending accuracy, reduced operational downtime, and lower maintenance costs. Its ability to deliver clean, precise bends enhances productivity and minimizes material waste, making it a cost-effective solution for metal fabrication.
With its combination of advanced engineering, durability, and precision, the Bending Blade stands out as a reliable tool for achieving superior bending results in industries such as automotive manufacturing, construction, and custom metalworking.
The Bending Blade is a high-performance tool engineered for precision metal bending and forming applications. Crafted from premium-grade alloy steel, this blade undergoes advanced heat treatment and hardening processes, ensuring exceptional strength, wear resistance, and durability. Its precision-ground edges and optimized geometry allow for accurate and consistent bends, minimizing material deformation and ensuring high-quality results.
One of the standout technical features of the Bending Blade is its ability to handle a wide range of materials, including steel, aluminum, and stainless steel, across varying thicknesses. The blade’s robust construction ensures stability and longevity, even under high-stress conditions, reducing the need for frequent replacements. Additionally, its compatibility with various press brakes and bending machines makes it a versatile choice for diverse industrial applications.
The Bending Blade offers significant advantages, including improved bending accuracy, reduced operational downtime, and lower maintenance costs. Its ability to deliver clean, precise bends enhances productivity and minimizes material waste, making it a cost-effective solution for metal fabrication.
With its combination of advanced engineering, durability, and precision, the Bending Blade stands out as a reliable tool for achieving superior bending results in industries such as automotive manufacturing, construction, and custom metalworking.
Industrial Blades Material Steel Grade Table | |||||
Categories | China(GB/T YB) | Euro(DIN/BS/NF) | American(AISI) | Japan(JIS) | ISO |
Alloy | 9CrSi | ― | ― | ― | ― |
6CrW2Si | ― | ― | ― | 50WCrV8 | |
Tool | Cr12Mo1V1 | 1.2379 | D2 | SKD 11 | X153CrMoV12 |
Cr12MoV | ― | ― | ― | ― | |
Steel | 4Cr5MoVSi | 1.2343 | H11 | SKD6 | X37CrMoV5-1 |
4Cr5W2VSi | 1.2606 | H12 | SKD62 | ― | |
4Cr5MoV1Si | 1.2344 | H13 | SKD 61 | X35CrMoV5-1 | |
High | W18Cr4V | 1.3355 | T1 | SKH2 | HS18-0-1 |
Speed | W6Mo5Cr4V2 | 1.3341/1.3343 | M2 | SKH51 | HS6-5-2 |
Tool | W6Mo5Cr4V3 | 1.3344 | M3 | SKH53 | HS6-5-3 |
Steel | W6Mo5Cr4V2Co5 | 1.3243/1.3245 | M35 | SKH55 | HS6-5-2-5 |
Stock size (Special customized size is acceptable) | |||||
Specification | Outer diameter | Inner diameter | Thickness | Knife edge type | Material |
Disc type knife | |||||
75x45x1.2 | Φ75 | Φ45 | 1.2T | Single/double side | W6Mo5Cr4V2/SKH-51/SKD-11 |
90x60x1.2 | Φ90 | Φ60 | 1.2T | Single/double side | W6Mo5Cr4V2/SKH-51/SKD-11 |
105x70x1.2 | Φ105 | Φ70 | 1.2T | Single/double side | W6Mo5Cr4V2/SKH-51/SKD-11 |
105x75x1.2 | Φ105 | Φ75 | 1.2T | Single/double side | W6Mo5Cr4V2/SKH-51/SKD-11 |
110x75x1.2 | Φ110 | Φ75 | 1.2T | Single/double side | W6Mo5Cr4V2/SKH-51/SKD-11 |
Flat round knife | |||||
80x40x1.0 | Φ80 | Φ40 | 1.0T | Single/double side | W6Mo5Cr4V2/SKH-51/YG12/SKD-11 |
90x60x1.0 | Φ90 | Φ60 | 1.0T | Single/double side | W6Mo5Cr4V2/SKH-51/YG12/SKD-11 |
120x40x1.0 | Φ120 | Φ40 | 1.0T | Single/double side | W6Mo5Cr4V2/SKH-51/YG12/SKD-11 |
half cut-off slitting knife | |||||
70x50x1.0 | Φ70 | Φ50 | 1.0T | double side | YG12/SKH-51 |
80x50x1.0 | Φ80 | Φ50 | 1.0T | double side | YG12/SKH-51 |
100x60x1.0 | Φ100 | Φ60 | 1.0T | double side | SKH-51 |
Industrial Blades Material Steel Grade Table | |||||
Categories | China(GB/T YB) | Euro(DIN/BS/NF) | American(AISI) | Japan(JIS) | ISO |
Alloy | 9CrSi | ― | ― | ― | ― |
6CrW2Si | ― | ― | ― | 50WCrV8 | |
Tool | Cr12Mo1V1 | 1.2379 | D2 | SKD 11 | X153CrMoV12 |
Cr12MoV | ― | ― | ― | ― | |
Steel | 4Cr5MoVSi | 1.2343 | H11 | SKD6 | X37CrMoV5-1 |
4Cr5W2VSi | 1.2606 | H12 | SKD62 | ― | |
4Cr5MoV1Si | 1.2344 | H13 | SKD 61 | X35CrMoV5-1 | |
High | W18Cr4V | 1.3355 | T1 | SKH2 | HS18-0-1 |
Speed | W6Mo5Cr4V2 | 1.3341/1.3343 | M2 | SKH51 | HS6-5-2 |
Tool | W6Mo5Cr4V3 | 1.3344 | M3 | SKH53 | HS6-5-3 |
Steel | W6Mo5Cr4V2Co5 | 1.3243/1.3245 | M35 | SKH55 | HS6-5-2-5 |
Stock size (Special customized size is acceptable) | |||||
Specification | Outer diameter | Inner diameter | Thickness | Knife edge type | Material |
Disc type knife | |||||
75x45x1.2 | Φ75 | Φ45 | 1.2T | Single/double side | W6Mo5Cr4V2/SKH-51/SKD-11 |
90x60x1.2 | Φ90 | Φ60 | 1.2T | Single/double side | W6Mo5Cr4V2/SKH-51/SKD-11 |
105x70x1.2 | Φ105 | Φ70 | 1.2T | Single/double side | W6Mo5Cr4V2/SKH-51/SKD-11 |
105x75x1.2 | Φ105 | Φ75 | 1.2T | Single/double side | W6Mo5Cr4V2/SKH-51/SKD-11 |
110x75x1.2 | Φ110 | Φ75 | 1.2T | Single/double side | W6Mo5Cr4V2/SKH-51/SKD-11 |
Flat round knife | |||||
80x40x1.0 | Φ80 | Φ40 | 1.0T | Single/double side | W6Mo5Cr4V2/SKH-51/YG12/SKD-11 |
90x60x1.0 | Φ90 | Φ60 | 1.0T | Single/double side | W6Mo5Cr4V2/SKH-51/YG12/SKD-11 |
120x40x1.0 | Φ120 | Φ40 | 1.0T | Single/double side | W6Mo5Cr4V2/SKH-51/YG12/SKD-11 |
half cut-off slitting knife | |||||
70x50x1.0 | Φ70 | Φ50 | 1.0T | double side | YG12/SKH-51 |
80x50x1.0 | Φ80 | Φ50 | 1.0T | double side | YG12/SKH-51 |
100x60x1.0 | Φ100 | Φ60 | 1.0T | double side | SKH-51 |
The Bending Blade is a versatile and essential tool in industries that require precise metal bending and forming. In the automotive manufacturing sector, it is widely used to shape metal sheets and components for car frames, chassis, and body parts. Its ability to deliver accurate and consistent bends ensures high-quality results, meeting strict industry standards for safety and performance.
In the construction industry, the Bending Blade plays a critical role in creating structural components such as beams, brackets, and supports. It is used to bend steel and aluminum profiles into precise angles, ensuring the integrity and durability of buildings, bridges, and infrastructure projects.
The blade is also indispensable in metal fabrication workshops, where it is used to produce custom parts for machinery, equipment, and architectural designs. Its precision bending capabilities make it ideal for creating intricate shapes and tight tolerances required for specialized projects.
Additionally, the Bending Blade is a key tool in appliance manufacturing, where it is used to shape metal parts for household and industrial appliances. Its ability to handle various materials and thicknesses ensures efficient production and high-quality finishes.
From large-scale industrial applications to custom fabrication tasks, the Bending Blade proves to be a reliable and efficient tool, delivering consistent and precise results across diverse industries.
The Bending Blade is a versatile and essential tool in industries that require precise metal bending and forming. In the automotive manufacturing sector, it is widely used to shape metal sheets and components for car frames, chassis, and body parts. Its ability to deliver accurate and consistent bends ensures high-quality results, meeting strict industry standards for safety and performance.
In the construction industry, the Bending Blade plays a critical role in creating structural components such as beams, brackets, and supports. It is used to bend steel and aluminum profiles into precise angles, ensuring the integrity and durability of buildings, bridges, and infrastructure projects.
The blade is also indispensable in metal fabrication workshops, where it is used to produce custom parts for machinery, equipment, and architectural designs. Its precision bending capabilities make it ideal for creating intricate shapes and tight tolerances required for specialized projects.
Additionally, the Bending Blade is a key tool in appliance manufacturing, where it is used to shape metal parts for household and industrial appliances. Its ability to handle various materials and thicknesses ensures efficient production and high-quality finishes.
From large-scale industrial applications to custom fabrication tasks, the Bending Blade proves to be a reliable and efficient tool, delivering consistent and precise results across diverse industries.
To ensure optimal performance and longevity of your Guillotine Blade, follow these essential usage guidelines.
Installation: Carefully mount the blade on the guillotine shear machine, ensuring proper alignment and secure fastening. Misalignment can lead to uneven cuts and premature wear. Use the correct bolts and tighten them to the manufacturer’s recommended torque settings.
Material Compatibility: Use the blade only for cutting materials it is designed for, such as steel, aluminum, or copper. Avoid cutting materials that exceed the blade’s hardness or thickness limits, as this can cause damage.
Operational Settings: Adjust the machine’s cutting speed and pressure according to the material type and thickness. Excessive speed or pressure can lead to overheating and blade wear, while insufficient settings may result in incomplete cuts.
Lubrication: Regularly apply cutting fluid or lubricant to reduce friction and heat during operation. This helps maintain the blade’s sharpness and extends its lifespan.
Maintenance: Inspect the blade frequently for signs of wear, such as dull edges or cracks. Sharpen or replace the blade as needed to ensure consistent cutting performance. Clean the blade after each use to remove metal debris and prevent corrosion.
Safety: Always wear appropriate protective gear, including gloves and safety glasses, during operation. Ensure the machine is turned off and fully stopped before performing any maintenance or adjustments. By following these guidelines, you can maximize the efficiency, durability, and safety of your Guillotine Blade, making it a reliable tool for your metal cutting needs.
To ensure optimal performance and longevity of your Guillotine Blade, follow these essential usage guidelines.
Installation: Carefully mount the blade on the guillotine shear machine, ensuring proper alignment and secure fastening. Misalignment can lead to uneven cuts and premature wear. Use the correct bolts and tighten them to the manufacturer’s recommended torque settings.
Material Compatibility: Use the blade only for cutting materials it is designed for, such as steel, aluminum, or copper. Avoid cutting materials that exceed the blade’s hardness or thickness limits, as this can cause damage.
Operational Settings: Adjust the machine’s cutting speed and pressure according to the material type and thickness. Excessive speed or pressure can lead to overheating and blade wear, while insufficient settings may result in incomplete cuts.
Lubrication: Regularly apply cutting fluid or lubricant to reduce friction and heat during operation. This helps maintain the blade’s sharpness and extends its lifespan.
Maintenance: Inspect the blade frequently for signs of wear, such as dull edges or cracks. Sharpen or replace the blade as needed to ensure consistent cutting performance. Clean the blade after each use to remove metal debris and prevent corrosion.
Safety: Always wear appropriate protective gear, including gloves and safety glasses, during operation. Ensure the machine is turned off and fully stopped before performing any maintenance or adjustments. By following these guidelines, you can maximize the efficiency, durability, and safety of your Guillotine Blade, making it a reliable tool for your metal cutting needs.
Q: Are you trading company or manufacturer ?
A: We are factory of tungsten carbide products.
Q: Where is your factory located?
A: We are located in NanJing.
Q: How long is your delivery time?
A: For the normal type which we have mold it takes two weeks after receiving the advance payment.
For the non standard which we do not have mold it takes 4 to 6 weeks when receiving the advance payment.
Q: Is the price Competitive?
A: UKO offer reliable products with good price.
Q: Are the products High Quality?
A: Yes. Raw material will be tested before bulk production, and we will check the physical properties, shape and tolerance for ensuring qualified products before shipping.
Q: Are you trading company or manufacturer ?
A: We are factory of tungsten carbide products.
Q: Where is your factory located?
A: We are located in NanJing.
Q: How long is your delivery time?
A: For the normal type which we have mold it takes two weeks after receiving the advance payment.
For the non standard which we do not have mold it takes 4 to 6 weeks when receiving the advance payment.
Q: Is the price Competitive?
A: UKO offer reliable products with good price.
Q: Are the products High Quality?
A: Yes. Raw material will be tested before bulk production, and we will check the physical properties, shape and tolerance for ensuring qualified products before shipping.