logging in or signing up ECM EDM ECG Final rock354 Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 1560 Category: Education License: All Rights Reserved Like it (0) Dislike it (0) Added: June 21, 2010 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Electro Chemical Machining : Electro Chemical Machining Fig : Schematic illustration of the electrochemical-machining process. This process is the reverse of electroplating. Electrochemical machining : This process is reversal of the electro plating Electrolyte acts as current carrier High rate of electrolyte movement in tool work piece gap washes metal ions away from the work piece ( ANODE) This is washed just before they have a chance to plate on the tool ( cathode) Shaped tool made of brass , copper , bronze , or stainless steel Electrolyte is pumped at a high rate through the passages in the tool Machines having current capacities as high as 40,000 A and as low as 5A are available Electrochemical machining Slide 3: FIGURE : Typical parts made by electrochemical machining. (a) Turbine blade made of a nickel alloy, 360 HB. Source: Metal Handbook, 9th ed., Vol. 3, Materials Park, OH: ASM International, 1980, p. 849. (b) Thin slots on a 4340-steel roller-bearing cage. (c) Integral airfoils on a compressor disk. Parts made by Electrochemical Machining Process capabilities : Process capabilities Used to machine complex cavities in high strength material Applications in aerospace industry,jet engines parts and nozzles ECM process gives a burr free surface No thermal damage Lack of tool forces prevents distortion of the part No tool wear Capable of producing complex shapes and hard materials Slide 5: Electrochemical Grinding Combines electrochemical machining with conventional grinding Fig : Schematic illustration of the electrochemical – grinding process. (b) Thin slot produced on a round nickel – alloy tube by this process. Electrical-Discharge Machining : Electrical-Discharge Machining FIGURE 9.32 Schematic illustration of the electrical-discharge-machining process. Examples of EDM : Examples of EDM FIGURE 9.33 (a) Examples of cavities produced by the electrical-discharge-machining process, using shaped electrodes. The two round parts (rear) are the set of dies for extruding the aluminum piece shown in front. Source: Courtesy of AGIE USA Ltd. (b) A spiral cavity produced by a rotating electrode. Source: American Machinist. (c) Holes in a fuel-injection nozzle made by electrical-discharge machining. Material: Heat-treated steel. Slide 8: Stepped Cavities FIGURE 9.34 Stepped cavities produced with a square electrode by EDM. The workpiece moves in the two principal horizontal directions, and its motion is synchronized with the downward movement of the electrode to produce various cavities. Also shown is a round electrode capable of producing round or eliptical cavities. Source: Courtesy of AGIE USA Ltd. WIRE EDM : WIRE EDM FIGURE : Schematic illustration of the wire EDM process. As much as 50 hours of machining can be performed with one reel of wire, which is then discarded. THE END : THE END You do not have the permission to view this presentation. In order to view it, please contact the author of the presentation.
ECM EDM ECG Final rock354 Download Post to : URL : Related Presentations : Share Add to Flag Embed Email Send to Blogs and Networks Add to Channel Uploaded from authorPOINT lite Insert YouTube videos in PowerPont slides with aS Desktop Copy embed code: (To copy code, click on the text box) Embed: URL: Thumbnail: WordPress Embed Customize Embed The presentation is successfully added In Your Favorites. Views: 1560 Category: Education License: All Rights Reserved Like it (0) Dislike it (0) Added: June 21, 2010 This Presentation is Public Favorites: 0 Presentation Description No description available. Comments Posting comment... Premium member Presentation Transcript Electro Chemical Machining : Electro Chemical Machining Fig : Schematic illustration of the electrochemical-machining process. This process is the reverse of electroplating. Electrochemical machining : This process is reversal of the electro plating Electrolyte acts as current carrier High rate of electrolyte movement in tool work piece gap washes metal ions away from the work piece ( ANODE) This is washed just before they have a chance to plate on the tool ( cathode) Shaped tool made of brass , copper , bronze , or stainless steel Electrolyte is pumped at a high rate through the passages in the tool Machines having current capacities as high as 40,000 A and as low as 5A are available Electrochemical machining Slide 3: FIGURE : Typical parts made by electrochemical machining. (a) Turbine blade made of a nickel alloy, 360 HB. Source: Metal Handbook, 9th ed., Vol. 3, Materials Park, OH: ASM International, 1980, p. 849. (b) Thin slots on a 4340-steel roller-bearing cage. (c) Integral airfoils on a compressor disk. Parts made by Electrochemical Machining Process capabilities : Process capabilities Used to machine complex cavities in high strength material Applications in aerospace industry,jet engines parts and nozzles ECM process gives a burr free surface No thermal damage Lack of tool forces prevents distortion of the part No tool wear Capable of producing complex shapes and hard materials Slide 5: Electrochemical Grinding Combines electrochemical machining with conventional grinding Fig : Schematic illustration of the electrochemical – grinding process. (b) Thin slot produced on a round nickel – alloy tube by this process. Electrical-Discharge Machining : Electrical-Discharge Machining FIGURE 9.32 Schematic illustration of the electrical-discharge-machining process. Examples of EDM : Examples of EDM FIGURE 9.33 (a) Examples of cavities produced by the electrical-discharge-machining process, using shaped electrodes. The two round parts (rear) are the set of dies for extruding the aluminum piece shown in front. Source: Courtesy of AGIE USA Ltd. (b) A spiral cavity produced by a rotating electrode. Source: American Machinist. (c) Holes in a fuel-injection nozzle made by electrical-discharge machining. Material: Heat-treated steel. Slide 8: Stepped Cavities FIGURE 9.34 Stepped cavities produced with a square electrode by EDM. The workpiece moves in the two principal horizontal directions, and its motion is synchronized with the downward movement of the electrode to produce various cavities. Also shown is a round electrode capable of producing round or eliptical cavities. Source: Courtesy of AGIE USA Ltd. WIRE EDM : WIRE EDM FIGURE : Schematic illustration of the wire EDM process. As much as 50 hours of machining can be performed with one reel of wire, which is then discarded. THE END : THE END