Shenzhen Bwin Precision Tools Co., Ltd.
The quality wins a market and the trust worthiness casts BWIN brand
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Quick Detail:
Sharp and durable
Smooth chip breaking
Complete specifications
Longer service life
Higher working efficiency
Description:
The high heat resistance and cobalt rich gradient structure cemented carbide matrix makes KNUX tungsten carbide inserts have a series of excellent properties such as high hardness, wear resistance, good strength and toughness. The KNUX blades are sintered at 5000 ℃ to remove impurities, and sprayed by 1000 ℃ stress accumulation. The unique coating process makes the processing more stable, smooth cutting, good chip removal performance, not easy to produce chip buildup, and the processing surface has good smoothness.
Specifications:
| Brand | BWIN |
| Model | KNUX160405L KNUX160405R |
| Color | Yellow/Brown/Fuchsia/Black |
| Workpiece | Cast iron/Steel/Stainless steel |
| Type | CNC Turning Cutter Insert |
| Material | Tungsten Carbide Turning Cutting Insert |
| Processing Type | Medium Cutting |
| Feature | Sharp and durable |
| Smooth chip breaking | |
| Complete specifications | |
| Longer service life | |
| Higher working efficiency | |
| Standard | ISO |
| Quantity | 10pcs/box |
| Weight | 0.015kg |
| Package | Plastic Box |
| Customized Support | OEM, ODM |
Notice:
1.The tungsten carbide inserts shall not be collided or dropped on the ground and must be handled with care.
2.Before installing the tungsten carbide inserts, the performance and purpose of the saw table must be confirmed to ensure that the cutting direction indicated by the blade arrow is consistent with the rotation direction of the saw table. It is strictly prohibited to install in the opposite direction. Wrong installation direction may cause the blade sawtooth to fall off, so as to prevent accidents.
3.After installation, it is necessary to confirm whether the central hole of the carbide blade is firmly fixed on the flange plate of the saw table. If there is a gasket, the gasket must be sleeved; Then, gently push with your hand to confirm whether the blade rotates eccentrically.
4.When using, do not exceed the specified high speed
5.When the tungsten carbide inserts are not used, hang the blade vertically on the dry shelf.
Applications:
Our tungsten carbide inserts could to be processed Alloy steel, Tool steel, carbon steel, stainless steel, Cast iron and Titanium alloy. Working material as following:
Advantages:
1.Hmported raw powder materials,
2.Have a peculiar gradient cobalt-rich on surface of the substrates which can ensure the inserts’ high performance when finishing the CVD coating.
3.The coating materials are MT-TiCN0-Al2O3 with thickness of 14μm, which have high abrasion resistance. After special management on the surface of the coating inserts, the internal stress and surface of coating were reduced while cutting resistance was also cut down.
4.Our BPS series grade can cutting steel and alloy steel from finish machining, to semi-finish and rough machining.
FAQ
1. Flank Wear? Higher cutting resistance,Notch wear on flank,Poor roughness of surface, or deterioration of accuracy.
Soft grades,Excessive cutting speed,Small flank angle,Low feed.
Select a higher,wear-resistant grade,Reduce cutting speed,Increase flank angle,Increase feed.
2. Crater Wear? Uncontrolled chip,Poor surface quality,when finishing High speed processing carbon steel
Soft grades,Excessive cutting speed,Excessive feed,The strength of chip breaker Insufficiet.
Change to a higher wear-resistant grade,Reduce cutting speed,Reduce feed,Select a higher strength chip breaker.
3. Chipping? Sudden fracture of cutting edge(rake face and flank),Instability insert life
Toughness insufficient,Excessive feed rate,Strength of cutting edge insufficient,Instability of the tool.
Select a tougher grade,Decrease feed rate,Increase honing of cutting edge(chamfering to rounding),Increase the stability and setting angle
4. Insert Fracture? Cutting resistance increased Poor surface roughness.
Toughness insufficient,Excessive feed rate,Strength of cutting edge insufficient,Instability of the tool.
Select a tougher grade,Decrease feed rate,Increase honing of cutting edge(chamfering to rounding),Increase the stability and setting angle.
5. Plastic Deformation? Variation of dimension Nose wear,cutting edge drape or passivating.when processing alloy steel Poor surface roughness
Soft grade,Excessive cutting speed,Excessive cutting depth and feed rate,Overheat on cutting edge.
Select a higher red hardness cutting material,Decrease cutting speed,Decrease cutting depth and feed rate,Select a higher thermal conductivity cutting material(CVD+sufficient coolant).
6. Build-Up-Edge? Workpiece dissove with Cutting edge Poor surface roughness when finishing,Cutting resistance increased,Cutting soft materials.
Cutting speed too low,Cutting edge obtuse,Unsuitable tool material. Increase cutting speed,Increase rake angle,Select small sticking force.