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- Cutting Process
In an era where electronic component manufacturing increasingly demands high precision and stability, the laser trimmer has evolved from a supplementary device into an indispensable core tool. Its introduction has fundamentally transformed the fabrication of resistors, sensors, and hybrid circuits, propelling the electronics industry toward micron-level precision and the future of smart manufacturing.
In the solar panel manufacturing industry, the silicon wafer cutting machine (Wire Saw) forms the foundation of the entire production process and stands as the key equipment determining both product yield and cost. From slicing monocrystalline or polycrystalline silicon ingots to shaping the wafers used in photovoltaic modules, the quality of each wafer directly impacts the efficiency and durability of solar panels.
In industrial automation and smart manufacturing, the ability of robotic arms to rotate as fluidly as a human wrist is not the result of a single component, but rather the synergy of two critical “invisible parts”: gears and bearings. Together, they form the core of robotic joints, ensuring every motion is both precise and smooth. These components, however, are not simply shaped from raw steel; they are the outcome of multiple sophisticated processes—CNC machining, heat treatment, and precision grinding—to meet the highest standards of accuracy and durability.
When comparing laser cutting technology to traditional cutting methods, laser cutting offers superior precision, as it utilizes a high-intensity laser beam to cut through materials with exceptional accuracy, even for intricate details.
Cutting technology encompasses various processing methods, with laser cutting being capable of fulfilling intricate and highly precise cutting demands. It is a prevalent technique widely used in industrial manufacturing.
The aerospace industry has always been a key development industry in all countries in the world. In addition to strict quality system certification and highly complex integration technology, it also has the characteristics of high added value and high industry relevance, which makes all countries take the development of the aerospace industry as a national industry.
Different types of milling cutters can be used to cut large amounts of material and leave poor surface smoothness (roughing) or to remove smaller amounts of material but leave good surface smoothness (finishing).
To exert the cutting ability of the tool, the tool material needs to have significant progress and improvement. Various tool materials currently used have their characteristics to meet various processing requirements.
Broaching is a machining process that uses a toothed machining tool, called a broach, to cut material from a workpiece. The broach has a series of cutting tips arrayed in sequence on one tool. The cutting tips become progressively larger across the span of the tool. Across the span of the broach, the cutting tips will progress from rough cutter tips to fine cutter tips. The broach is inserted into a machine called a broaching machine, which drives the broach.
In the cutting of hardware components, a comprehensive analysis of factors is required, and through strict process flow, a suitable cutting process can be planned to manufacture hardware components of stable quality.
When selecting a milling cutter suitable for the machining task, various issues such as the geometry, size, and work piece material of the parts to be processed must be considered.
Stamping is a process in which thin walled metal parts are shaped by punches and dies.
A shaper is a type of machine tool that uses the linear relative motion between the workpiece and a single-point cutting tool to machine a linear toolpath. Its cut is analogous to that of a lathe, except that it is (archetypally) linear instead of helical.
The milling machine is a machine tool that uses a multi-edged rotary tool (milling cutter) to cut the workpiece (or work) in the feed. It can do plane, class, shape, curved surface, tooth shape and other processing.
What is a sawing machine? A sawing machine is used for sawing processed objects. It is often used in industrial or construction sawing technology.
Cutting technology has many different processing techniques, and laser cutting can perform more complex and precise cutting requirements, which is also a common processing technique in industrial manufacturing.
Industrial manufacturing requires machining tolerances. EDM machine can cut metal through electric current.
Why do we need a drilling machine? The drilling machine can perform precise drilling without damaging the object so that a drilling machine is an indispensable processing technology in industrial manufacturing.
There are some differences between the general EDM machine and wire-cut electrical discharge machining. Different processing technologies are applied to different industrial manufacturing needs.
Laser cutting technology Compared with traditional cutting, the laser cutting process has better accuracy, and precise details are cut through a high-intensity laser beam.
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