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Aerospace
With the continuous improvement of the efficiency and quality requirements of aerospace parts processing, high-speed cutting technology has been widely used. High-speed cutting tools need to have higher speeds, larger feed rates, and better cutting performance to achieve efficient and precise processing.
The precision requirements of aerospace parts are getting higher and higher, and precision machining tools need to be used to ensure machining quality. Precision machining tools include high-precision milling cutters, boring tools, drills, etc., which can achieve micron-level or even nanometer-level machining accuracy. For example, precise measurement techniques such as laser interferometers are used to accurately measure the dimensions and adjust the accuracy of the tools to ensure the machining accuracy of the tools.
Power generation
Cutting tools have important applications in the power generation field. Cutting tools are used to mill and grind blade blanks to form precise blade shapes and surface finishes. For composite material blades, although the main processing technology is the forming process, cutting tools are also needed for trimming and drilling in the later stage to ensure the dimensional accuracy and installation requirements of the blades. Cutting tools are used to process the cladding material of nuclear fuel rods, such as cutting and end processing of stainless steel pipes. During the processing, high-precision cutting tools and strict quality control measures must be adopted to ensure the dimensional accuracy and sealing of the nuclear fuel assembly.
Automotive
Cutting tools are widely used in the automotive industry, covering the processing and manufacturing of many key components such as automobile engines, gearboxes, chassis, and bodies. In cylinder body processing, various cutting tools are needed, such as milling cutters for milling the top, bottom, and sides of the cylinder body to ensure planarity and surface roughness; boring tools for boring the inner diameter of the cylinder, ensuring the dimensional accuracy and cylindricity of each cylinder to meet the requirements of the piston and cylinder matching; drilling tools for processing various mounting holes and oil passages. In the processing of these parts, cutting tools are used in various processing technologies such as milling, turning, and drilling to form various mounting surfaces, holes, and grooves, ensuring the strength and assembly accuracy of the parts.
General Machining
In mechanical machining workshops, cutting tools are used to machine various metal and non-metal materials to manufacture parts with various shapes and precision requirements. For example, milling cutters are used on milling machines to process planes, grooves, gears, etc.; turning tools are used on lathes to process the outer circles, inner holes, and threads of shaft-type and disc-type parts; drills are used on drilling machines to process various holes; and grinding wheels are used on grinding machines to grind parts to obtain high dimensional accuracy and surface finish. Mold manufacturing requires high-precision machining, and cutting tools play a key role in the processing of mold cavities and cores. For example, molds after EDM need to be precision milled with milling cutters to remove the altered layer generated by EDM and improve surface quality; for some complex mold cavities, five-axis linkage machining centers and corresponding tools will also be used for processing to achieve complex curved shapes.
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