2 5D (machining) - significado y definición. Qué es 2 5D (machining)
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Qué (quién) es 2 5D (machining) - definición

METHOD OF REMOVING METAL BY AN ELECTROCHEMICAL PROCESS
Electro chemical machining; Electro-chemical machining
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  • An ET 3000 ECM machine by INDEC of Russia
  • Electrochemical machining principle (ECM)1 Pump 2 Anode (workpiece)3 Cathode (tool) movable in all direction 4 Electric current 5 Electrolyte 6 Electrons 7 Metal hydroxide

Machined         
  • the aircraft carrier USS ''John C. Stennis''.]]
MANUFACTURING PROCESS IN WHICH A PIECE OF RAW MATERIAL IS CUT INTO A DESIRED FINAL SHAPE AND SIZE BY A CONTROLLED MATERIAL-REMOVAL PROCESS
Machined; Cutting and machining; Mechanical cutting; Orbital drilling; Orbital Drilling; Subtractive manufacturing; Machine cutting
·Impf & ·p.p. of Machine.
machining         
  • the aircraft carrier USS ''John C. Stennis''.]]
MANUFACTURING PROCESS IN WHICH A PIECE OF RAW MATERIAL IS CUT INTO A DESIRED FINAL SHAPE AND SIZE BY A CONTROLLED MATERIAL-REMOVAL PROCESS
Machined; Cutting and machining; Mechanical cutting; Orbital drilling; Orbital Drilling; Subtractive manufacturing; Machine cutting
Machining         
  • the aircraft carrier USS ''John C. Stennis''.]]
MANUFACTURING PROCESS IN WHICH A PIECE OF RAW MATERIAL IS CUT INTO A DESIRED FINAL SHAPE AND SIZE BY A CONTROLLED MATERIAL-REMOVAL PROCESS
Machined; Cutting and machining; Mechanical cutting; Orbital drilling; Orbital Drilling; Subtractive manufacturing; Machine cutting
·p.pr. & ·vb.n. of Machine.
II. Machining ·adj Of or pertaining to the machinery of a poem; acting or used as a machine.

Wikipedia

Electrochemical machining

Electrochemical machining (ECM) is a method of removing metal by an electrochemical process. It is normally used for mass production and is used for working extremely hard materials or materials that are difficult to machine using conventional methods. Its use is limited to electrically conductive materials. ECM can cut small or odd-shaped angles, intricate contours or cavities in hard and exotic metals, such as titanium aluminides, Inconel, Waspaloy, and high nickel, cobalt, and rhenium alloys. Both external and internal geometries can be machined.

ECM is often characterized as "reverse electroplating", in that it removes material instead of adding it. It is similar in concept to electrical discharge machining (EDM) in that a high current is passed between an electrode and the part, through an electrolytic material removal process having a negatively charged electrode (cathode), a conductive fluid (electrolyte), and a conductive workpiece (anode); however, in ECM there is no tool wear. The ECM cutting tool is guided along the desired path close to the work but without touching the piece. Unlike EDM, however, no sparks are created. High metal removal rates are possible with ECM, with no thermal or mechanical stresses being transferred to the part, and mirror surface finishes can be achieved.

In the ECM process, a cathode (tool) is advanced into an anode (workpiece). The pressurized electrolyte is injected at a set temperature to the area being cut. The feed rate is the same as the rate of "liquefication" of the material. The gap between the tool and the workpiece varies within 80–800 micrometers (0.003–0.030 in.) As electrons cross the gap, material from the workpiece is dissolved, as the tool forms the desired shape in the workpiece. The electrolytic fluid carries away the metal hydroxide formed in the process.

Electrochemical machining, as a technological method, originated from the process of electrolytic polishing offered already in 1911 by a Russian chemist E.Shpitalsky.

As far back as 1929, an experimental ECM process was developed by W.Gussef, although it was 1959 before a commercial process was established by the Anocut Engineering Company. B.R. and J.I. Lazarenko are also credited with proposing the use of electrolysis for metal removal.

Much research was done in the 1960s and 1970s, particularly in the gas turbine industry. The rise of EDM in the same period slowed ECM research in the west, although work continued behind the Iron Curtain. The original problems of poor dimensional accuracy and environmentally polluting waste have largely been overcome, although the process remains a niche technique.

The ECM process is most widely used to produce complicated shapes such as turbine blades with good surface finish in difficult to machine materials. It is also widely and effectively used as a deburring process.

In deburring, ECM removes metal projections left from the machining process, and so dulls sharp edges. This process is fast and often more convenient than the conventional methods of deburring by hand or nontraditional machining processes.