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CNC_Plasma_Cutting.ogv (Ogg multiplexed audio/video file, Theora/Vorbis, length 34 s, 528 × 304 pixels, 1.01 Mbps overall, file size: 4.02 MB) This is a file from the Wikimedia Commons . Information from its description page there is shown below.
CNC plasma cutting Plasma cutting performed by an industrial robot. Plasma cutting is a process that cuts through electrically conductive materials by means of an accelerated jet of hot plasma. Typical materials cut with a plasma torch include steel, stainless steel, aluminum, brass and copper, although other conductive metals may be cut as well.
William P. Parker is an American artist, scientist, and entrepreneur, best known for inventing the modern design of the plasma globe. [1] The invention occurred in 1971, when Parker was working as a student in a physics laboratory at the Massachusetts Institute of Technology and accidentally filled a test chamber to a greater-than-usual pressure with ionized neon and argon. [2]
Some cutting technologies (plasma) require some minimal offset between the parts; Nesting software may also have to take into account material characteristics, such as: Defects on material that must be discarded; Different quality areas that must match corresponding quality levels required for different parts;
Plasma processing is a plasma-based material processing technology that aims at modifying the chemical and physical properties of a surface. [1]
Plasma Surgical is a privately held medical device company with headquarters in suburban Atlanta, Georgia, USA, with operations in the UK and France. The company was founded based on the work of plasma physics professor Nikolay Suslov, who developed a technology to apply plasma energy to surgically treat live tissue with minimal thermal damage.
Fig. 2. The construction of Inductively Coupled Plasma torch. [3] A: cooling gas tangential flow to the outer quartz tube B: discharge gas flow (usually Ar) C: flow of carrier gas with sample D: induction coil which forms the strong magnetic field inside the torch E: force vectors of the magnetic field F: the plasma torch (the discharge).
The two-temperature model can be extended on a case-by-case basis. One notable extension involves the generation of plasma. For ultra-short pulses (which suggest a large fluence) it has been proposed that Coulomb explosion also plays a role [26] because the laser energy is high enough to generate ions in the ablation plume. A value for the ...