Cowee multi-functional tool can machine grooving, part-off, facing and forming in various applications.
It design ensures superior machinability and productivity.
Cowee multi-functional tool can machine grooving, part-off, facing and forming in various applications.
It design ensures superior machinability and productivity.
Metal working turning inserts are suitable for machining metal workpieces of various shapes, including but not limited to the following shapes:
Turning inserts can be used to machine cylindrical workpieces such as shafts, bushings, pins, etc. The turning operation allows for rotationally symmetrical machining on the workpiece.
Turning inserts can be used for machining spherical workpieces, such as spherical pins, spherical bushings and so on. Spherical turning operations allow precise machining on the surface of spherical workpieces.
Turning inserts can be used for machining tapered workpieces, such as tapered pins, tapered bushings, etc. The taper turning operation enables taper machining on the workpiece.
Turning inserts can be used for machining plane-shaped workpieces, such as plane bushings, plane pins and so on. Through the turning operation, it can achieve the plane processing on the workpiece.
Turning inserts can also be used to process various complex shape workpieces, such as gears, cams, etc.. Through the application of CNC turning or special tools, high-precision processing of complex-shaped workpieces can be achieved.
It should be noted that different shaped workpieces may require different types or designs of turning inserts to suit their specific machining needs. When selecting turning inserts, you need to make a reasonable choice based on factors such as the shape of the workpiece, material and machining requirements.
Metal machining turning inserts offer several advantages:
Turning inserts are able to process at higher cutting speeds and feed rates, so they can remove metal materials quickly and increase productivity.
Turning inserts can achieve high machining precision and surface quality, which can meet the needs of workpiece processing with high requirements for dimensional accuracy and surface finish.
Turning inserts are suitable for machining workpieces of different shapes and materials, and have wider applicability. By choosing the right tool shape and material, it can meet different processing needs.
Turning inserts achieve stable cutting process through the relative motion between cutting tool and workpiece. Compared with other machining methods, turning inserts have higher cutting stability, reducing the risk of workpiece deformation and cutting vibration.
Turning inserts are relatively low cost and have a long service life. The relatively simple replacement of inserts reduces production and maintenance costs.
For automated machining equipment such as CNC lathes, turning inserts can be combined with control systems to achieve automated control of complex shapes and precision machining, and improve productivity and consistency.
Overall, metalworking turning inserts have the advantages of high efficiency machining, precision control, versatility, cutting stability, economy and programmability, and are an important tool widely used in the metalworking industry.
Metal working drilling inserts are suitable for machining metal workpieces of various shapes, mainly for drilling operations. The following are some common shapes:
Drilling inserts are suitable for drilling operations on cylindrical workpieces, such as shafts, bushings, pins, etc. By drilling operations, it is possible to achieve circular holes of uniform diameter in the workpiece.
Drilling inserts can be used for drilling holes in flat workpieces, such as flat plates and base plates. The drilling operation enables the arrangement of holes in flat workpieces.
Drilling inserts are suitable for processing hole-shaped workpieces, such as hole plates, hole sets, etc. Through drilling operations, holes of various shapes and sizes can be drilled in the workpiece.
Drilling inserts can be used to process tapered workpieces, such as tapered pins, tapered bushings and so on. Through the drilling operation, taper can be achieved on the workpiece.
It is important to note that drilling inserts are mainly used for drilling operations, and for other shapes that require machining, it may be necessary to use other types of cutting tools, such as milling inserts or turning inserts. When choosing drilling inserts, you need to make a reasonable choice based on factors such as the shape of the workpiece, material and machining requirements.
Metal working drilling inserts offer several advantages:
Drilling inserts are capable of machining at high cutting and feed speeds, so drilling operations can be completed quickly, increasing productivity.
Drilling inserts can be accurately positioned by the centre drill tip, ensuring accurate and consistent drilling positions.
Drilling inserts enable high machining precision and dimensional control. By choosing the right tool and cutting parameters, precise hole diameters and roundness can be achieved.
Drilling inserts produce a good surface quality of the hole wall, often without additional subsequent machining steps.
Drilling inserts are suitable for machining larger diameter holes, which can meet the demand for large hole diameters, such as pipes and bearing housings.
Drilling inserts are suitable for machining a wide range of metal materials, including steel, iron, copper, aluminium, alloys and so on. Different types of inserts are suitable for materials with different hardness and cutting performance with certain adaptability.
Drilling inserts have relatively simple operation methods, easy to get started and use. Tool replacement is also relatively easy and quick.
Overall, metalworking drilling inserts have the advantages of efficient machining, accurate positioning, precision control, surface quality, large hole diameter machining, wide range of applicable materials and simple operation, which is one of the most important tools widely used in the metalworking industry.
SO Inserts
WC Inserts
Metal working milling inserts are suitable for machining metal workpieces of various shapes, including but not limited to the following shapes:
Milling inserts can be used to process flat workpieces, such as flat milling and flat grooving. Through the milling operation, a flat finish can be obtained on the surface of the workpiece.
Milling inserts are suitable for machining slotted workpieces such as slot milling, keyway, etc. Through the milling operation, the groove can be cut on the workpiece, cutting out the groove structure.
Milling inserts can be used for processing hole-shaped workpieces, such as hole milling, hole slotting, etc.. Through the milling operation, a hole-shaped structure can be cut on the workpiece.
Milling inserts are suitable for processing curve-shaped workpieces, such as parts with curved contours, complex curved surfaces and so on. Through CNC milling or the application of special tools, the processing of complex curved shapes can be realised.
Milling inserts can be used to process three-dimensional workpieces, such as three-dimensional parts, three-dimensional moulds and so on. Through multi-axis CNC milling or the application of special tools, the processing of complex three-dimensional shapes can be achieved.
It should be noted that different shapes of workpieces may require different types or designs of milling inserts to suit their specific machining needs. When selecting milling inserts, you need to make a reasonable choice based on factors such as the shape of the workpiece, material and machining requirements.It should be noted that different shapes of workpieces may require different types or designs of milling inserts to suit their specific machining needs. When selecting milling inserts, you need to make a reasonable choice based on factors such as the shape of the workpiece, material and machining requirements.
Metalworking milling inserts offer several advantages:
Milling inserts can cut in multiple directions, including radial and axial cutting. This allows milling inserts to perform both lateral and longitudinal cutting operations with high machining efficiency.
Milling inserts can process at higher cutting speeds and feed rates, increasing productivity. Milling inserts typically have higher speeds and feed rates than turning inserts.
Milling inserts can perform various forms of machining such as plane milling, slot milling and hole milling. It can be used for machining flat surfaces, slots, holes and other shapes of workpieces.
Milling inserts have high machining precision and surface quality control ability. Through reasonable selection of tools and cutting parameters, it can achieve high-precision machining and meet the size and surface requirements of the workpiece.
Milling inserts are relatively stable in the cutting process, which can reduce the vibration and deformation of the workpiece. Reasonable selection of tools, tool rigidity and cutting parameters can achieve stable cutting process and improve machining quality.
Milling inserts are suitable for processing various metal materials, including steel, iron, copper, aluminium, titanium and so on. Different types of inserts are suitable for materials with different hardness and cutting performance, with a certain degree of adaptability.
For automated processing equipment such as CNC milling machines, milling inserts can be combined with the control system to achieve automated control of complex shapes and precision machining, and improve productivity and consistency.
In summary, metal processing milling inserts have the advantages of multi-directional cutting, high-speed processing, multiple processing forms, precision control, cutting stability, wide range of applicable materials, programmability, etc., which is one of the commonly used cutting tools in metal processing.
ON Inserts
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