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Many plasma cuts are ionized by a high velocity gas stream ejected at a nozzle at a high temperature to form an electrical conductor. When a large current is passed, the conducting gas stream forms a high-temperature plasma arc, the heat of the arc locally melting (and evaporating) the metal at the workpiece slit, and a method of removing the molten metal by the power of the high-speed plasma gas stream to form a slit. The elongated and stable plasma arc formed by the annular airflow technique ensures that any conductive metal can be cut smoothly and economically.
The ion arc energy intensity of a fine plasma is three times that of a conventional plasma system. Combined with an improved torch, fine plasma gives the user nearly vertical edge cutting and the ability to cut complex shapes. Although limited by plasma arc slitting and fluency, fine plasma cutting is not as precise as laser, but there is no absolute advantage in laser cutting for many types of parts, and the cost of fine plasma cutting systems is much lower. The cost of a laser cutting system.
Many of the latest 260 amp fine plasma system sheet metal cutting speeds are close to the cutting speed of a 400 amp conventional plasma system. From thin metal sheets to 32mm thick metal sheets, the fine plasma cutting system achieves slag-free cutting. It is suitable for bevel cutting up to a 45 degree angle and can be cut underwater. While improving the cutting quality and cutting speed, the service life of plasma consumables has also been significantly improved. According to the customer feedback from Farley, a set of consumables can complete more than 3,000 cutting tasks.
Many plasma cuttings cut all sheet metal and many non-metallic materials with a maximum cutting speed of 10m/min, which is 10 times that of flame cutting. Underwater cutting can eliminate noise, dust, harmful gases and arcs generated during cutting, which is conducive to environmental protection.
Plasma cutting is especially suitable for medium and thick boring processing, such as shipbuilding, metallurgy, boiler containers, petroleum pipes and other industries.
Metal CNC precision machining accounts for a very high proportion in the CNC machining industry, whether it is CNC turning or CNC milling. CNC machining of metal parts requires selecting appropriate tools, setting reasonable parameters and programming reasonable tool paths according to the material and structure of the parts in order to produce good products. This has very high requirements on the technology and experience of the production engineer. Whether a product can meet the requirements depends largely on the production engineer. The same equipment and the same tool may produce two completely different products under the operation of different engineers.
SCZY's production engineers have more than 10 years of experience in the industry, and can easily deal with workpieces of various materials and structures, and can ensure the pass rate of the workpiece. Of course, in addition to good staff, we also have good equipment and good tools to cooperate with high-quality production engineers to produce good products. Finally, we also have sophisticated testing equipment and excellent quality inspectors to ensure qualified products.
Steel Precision Machining,High Precision Lathe Processing Parts,Ss Lathe Processing Workpiece,High Precision Steel Machining,CNC Machining Services
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