PEEK GF30 Sheets
PEEK board (polyetheretherketone board) is a high-performance engineering plastic sheet with excellent mechanical properties, chemical resistance, heat resistance, and wear resistance. Due to its unique properties, PEEK board can be formed and manufactured through various processing methods. The following are common PEEK board processing methods:
1. Turning
Turning is a machining method that involves rotating a workpiece and using cutting tools to remove material. The workpiece is usually fixed on a lathe, and the cutting tool moves along the axis of the workpiece to machine cylindrical, conical, or other rotationally symmetric shapes.
2. Milling
Milling is a machining method that removes material by rotating multi blade cutting tools (milling cutters). The workpiece is usually fixed on the worktable, and the milling cutter moves in multiple directions to machine shapes such as planes, grooves, gears, and complex contours.
3. Drilling
Drilling is a machining method that uses a rotating drill bit to create circular holes on a workpiece. The drill bit is usually fed along the axis direction to penetrate the workpiece material.
4. Sawing
Sawing is a machining method of cutting materials using serrated tools such as band saws and circular saws. Sawing can be linear cutting or curved cutting, suitable for cutting materials such as plates and bars.
5. Grinding
Grinding is a machining method that removes material through a high-speed rotating grinding wheel. Grinding wheels are composed of abrasive particles and are used for high-precision machining and surface finishing of workpieces.
6. Welding
Description : Welding is a machining method that connects two or more workpieces together by heating or applying pressure. Common welding methods include arc welding, gas shielded welding, laser welding, ultrasonic welding, etc.
| Machining Method | Applications | Advantages |
| Turning | Machining shafts, sleeves, flanges, and other cylindrical parts. | High precision, high efficiency, suitable for mass production. |
| Milling | Machining flat surfaces, slots, and complex-shaped parts such as molds and mechanical components. | Suitable for complex shape machining, high flexibility. |
| Drilling | Machining bolt holes, positioning holes, through holes, etc. | Simple operation, suitable for various materials. |
| Sawing | Cutting sheets, rods, tubes, etc. | Suitable for cutting large-sized materials, high efficiency. |
| Grinding | High-precision surface machining, tool sharpening, machining hard materials. | High precision, high surface quality, suitable for machining hard materials. |
| Welding | Joining metals, plastics, and other materials, such as structural components, pipelines, and containers. | High-strength joints, suitable for joining various materials.
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Each processing method has its specific application scenarios and advantages, and the choice of processing method depends on the design requirements, material properties, and production conditions of the final product.
