A plasma or oxyfuel machine is a cutting tool used in metal fabrication and industrial manufacturing processes. These machines are designed to cut through thick metal sheets or plates with high precision and efficiency. The oxyfuel cutting process involves the use of a combination of oxygen and a fuel gas (typically acetylene) to create a high-temperature flame that melts the metal, while a stream of oxygen blows away the molten material, leaving a clean cut. On the other hand, plasma cutting utilizes a jet of ionized gas, typically compressed air or nitrogen, which is heated to an extremely high temperature by an electrical arc. The intense heat generated by the plasma arc melts the metal, and a high-velocity stream of gas blows away the molten material, resulting in a precise and smooth cut. Both oxyfuel and plasma cutting machines are indispensable tools in industries like construction, metal fabrication, and automotive manufacturing for their ability to cut a wide range of metals effectively, making them essential for creating complex metal parts and structures
The "NewPlasma" machine represents a cutting-edge advancement in the field of plasma cutting technology. This innovative system utilizes a high-temperature ionized gas, or plasma, to cut through a wide range of materials with exceptional precision and efficiency. What sets the NewPlasma machine apart is its state-of-the-art design, which incorporates advanced features like computer numerical control (CNC) capabilities, real-time monitoring, and automatic height adjustment to maintain consistent cutting quality. Whether used in industrial applications for slicing through thick metal sheets or in artistic projects for intricate metalwork designs, the NewPlasma machine offers unparalleled versatility and accuracy, making it a valuable tool in various sectors, from manufacturing and construction to art and fabrication. Its ability to handle different materials and its intelligent control system make it a game-changer in modern cutting and fabrication processes.
Old plasma machines, also known as legacy or vintage plasma cutters, were once innovative tools in the world of metal fabrication and cutting. These machines typically used a combination of compressed gases, such as nitrogen or argon, and electrical arcs to create a high-temperature plasma jet that could slice through various metals with precision. While these machines were revolutionary in their time and paved the way for modern CNC (Computer Numerical Control) plasma cutters, they often lacked the advanced features and automation capabilities found in contemporary models. As a result, older plasma machines may require more manual operation, have limitations in terms of cutting speed and thickness, and may not offer the same level of precision as their newer counterparts. Nevertheless, they hold historical significance and can still be found in use in certain industries, particularly for specialized applications where their unique capabilities are still valuable.
