Advanced Machining Processes by Himanshu Vaid
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Transcript of Advanced Machining Processes by Himanshu Vaid
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Advanced Machining Processes
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Electrochemical Machining
Uses an electrolyte and electrical current to ionize and remove metal atoms
Can machine complex cavities in high-strength materials
Leaves a burr-free surface
Not affected by the strength, hardness or toughness of the material
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Electrochemical Machining
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Electrochemical Machining
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Electrochemical Machining
Design Considerations:- The electrolyte erodes away
sharp profiles- It is difficult to control
electrolyte flow; irregular cavities may not be formed accurately
- Allow for small taper in holes made this way
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Electrochemical Grinding
Uses a rotating cathode embedded with abrasive particles for applications comparable to milling, grinding and sawing
Most of the metal removal is done by the electrolyte, resulting in very low tool wear
Adaptable for honing
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Electrochemical Grinding
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Electrochemical Grinding
Design Considerations:(in addition to those for
electrochemical machining)- Avoid sharp inside radii- Flat surfaces to be ground
should be narrower than the width of the grinding wheel
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Electrical-Discharge Wire Cutting
The wire moves through the workpiece like a band saw, removing material by electrical discharge
Dielectric fluid is applied to the work area
The wire is generally used only once; it is inexpensive
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Electrical-Discharge Wire Cutting
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Electrical-Discharge Wire Cutting
Example of a wire EDM machine
Courtesy of Edison Industrial Service Center
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Electrical-Discharge Wire Cutting
Example of a wire EDM machine
Courtesy of Edison Industrial Service Center
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Laser-Beam Machining
Uses a concentrated beam of light to vaporize part of the workpiece
Usually produces a rough surface with a heat-affected zone
Can cut holes as small as .005 mm with depth/diameter ratios of 50:1
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Laser-Beam Machining
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Laser-Beam Machining
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Plasma Arc Cutting
Uses plasma (ionized gas) to rapidly vaporize material
Material removal rates are much higher than those for laser beam machining and electron beam machining; produces good surface finish and thin cut width
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Plasma Arc Cutting
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Plasma Arc Cutting
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Electron Beam Machining and Plasma Arc Cutting
Design Considerations:(in addition to those for laser-
beam machining)- Parts should match the size of
the vacuum chamber- Consider manufacturing the
part as a number of smaller components
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Summary
Advanced machining processes offer alternatives where conventional procedures would be insufficient or uneconomical
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THANK YOU :)