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UNIT-IV ADVANCED NANO FINISHING PROCESS In order to substitute manual finishing process and to meet the functional properties such as wear resistance, power loss, due to friction on most of the engineering components, we go for advanced machining process. This finishing process is carried out at micro and nano level. This process is called as advanced nano finishing process. Nano finishing is the only operation which can make rough surfaces in nanometers range. The ultimate precision through finishing will be where processed where there is a change in size of sub nanometer.
TYPES It offers batter accuracy, higher efficiency, economic and consistency. Some of the nano finishing processes are 1.Abrasive flow machining 2.Chemo mechanical polishing 3.Magnetic abrasive finishing 4.Magneto rheological finishing 5.Magneto rheological abrasive flow finishing
ABRASIVE FLOW MACHINING WORKING PRINCIPLE In abrasive flow machining process, the semisolid abrasive media acts as deformable grading wheel; which helps to remove small amount of materials. The abrasive media is given larger force or velocity by hydraulic or mechanical means to push the media into the areas in which conventional finishing process cannot be performed.
The hydraulic rams are those which alternatively compress and extrude the abrasive medium from the bottom cylinder to the top through the workpiece. The pressure of the extruding medium is in the range of 0.70 to 0.22 MPa or 100-3200 PSI. Abrasive grit size are 8 to 700 mesh, which enable quick cutting action. Fine grit size are 300-700 mesh for the medium to increase the stiffness. The medium may be mixed with hand or cycled 20-50 times through scrap parts. On repeated action, the medium loses its cutting ability more abrasive or base can be added to reconstitute the mixture.
The excess medium is removed from parts using air or vacuum. Also solvents are used to dissolve and destroy the base. While tooling, maximum machining takes place when there is a maximum restriction in media or flow of abrasives. The media stiffness is also used to determine the stock removal. If media has high stiffness, it will result in a flow patterns of pure extrusion process. If the media has low stiffness, then media flow in the centre is faster than along the walls.
The pressure and temperature inside the media is determined and controlled. The force acting on the media are the viscous components assist to exert axial forces and tries to move along the direction of applied extrusion pressure. The elastic component assists in exerting radial force which presses the active abrasive particles into the workpiece surface. The viscous and elastic components are used in removing the material in the form of micro nano chips.
For effective movement of the chips, the axial force should be greater than the required force because it increases the depth of penetration and remove the material. The surface finish obtained by this process is 0.05 m. The force and velocity diagram in AFM are as shown in figure
TYPESOFABRASIVEFLOWMACHINING The types of abrasive flow machining are 1.One way abrasive flow machining 2.Two way abrasive flow machining 3.Orbital abrasive flow machining 1.One WayAbrasive Flow Machining The abrasive processing pushes the media in one way flow as shown in figure. The abrasive media passes in one way processing through the workpiece and exit freely from the other part.
The Advantages of One Way AFM The process is faster and easy to clean up small holes in turbines. Machining of larger parts can be done. Temperature control of the media is not required
2. Two WayAbrasive Flow Machining The two way AFM process uses two vertically opposite cylinders to extrude the abrasive media in backward and forward direction through or around the passage formed by the workpiece and tooling. Abrasive action on the workpiece takes place, when the medium enters and passes through the passage as shown in Figure. TheAdvantage of Two Way AFM The process control is excellent The process is used to finish the internal ends and outer diameter of the components
3. Orbital Abrasive Flow Machining This machining process is done by rapid. low amplitude, oscillation of the workpiece relative to self forming elastic plastic abrasive polishing tool. The tool is a pad or layer of abrasive laden elastic plastic medium. The medium used here are higher in viscosity. The medium is pushed from one side with the piston through cylinder as it passes through the workpieces and machining takes place when abrasives passes through the workpiece. The detail is shown in figure
4. PROCESS PARAMETERS INABRASIVEFLOW MACHINING The metal removal rate depends upon the following parameters. 1.Addition of plasticizers 2.Extrusion pressure 3.Number of cycles
1.PlasticizerVs Change in Surface Roughness In process addition of silicon carbide percentage increase the surface roughness of the components. This graph shown at 15% addition of SiC in the Plasticizer has the maximum surface roughness value. The maximum surface roughness value is obtained 5% addition of SiC and maximum at 10% t of plasticizers.
2. Extrusion PressureVsChange in Surface Roughness From this figure the graph shows the maximum change in surface roughness. When 15% of silicon carbide is added to medium and moved in optimum extrusion pressure.
3.Finishing CyclesVs Change in Surface Roughness The surface roughness of components increases with maximum number of finishing cycles. As the finishing cycles are increased from 100 to 400, the surface roughness also increased and good surface finish is obtained. The number of finishing cycles are controlled by mechanical counter 5. ADVANTAGES OFAFM Operations such as deburring polishing and radiusing can be done. It is faster than manual finishing This process is more suitable for batch production
It can finish inaccessible areas in one single movement. 5. LIMITATIONSOFAFM It has low finishing rate compared to other nano finishing process. The process involves high production time and high production cost. There should be repeated replacements of poly abrasive media that is used in AFM process. 6. APPLICATIONSOFAFM AFM is used in finishing of Extrusion dies Nozzle of flame cutting touch Air foil surfaces of impellors Accessory parts like fuel spray, nozzle, fuel control bodies.

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UNIT-4.pptx

  • 1. UNIT-IV ADVANCED NANO FINISHING PROCESS In order to substitute manual finishing process and to meet the functional properties such as wear resistance, power loss, due to friction on most of the engineering components, we go for advanced machining process. This finishing process is carried out at micro and nano level. This process is called as advanced nano finishing process. Nano finishing is the only operation which can make rough surfaces in nanometers range. The ultimate precision through finishing will be where processed where there is a change in size of sub nanometer.
  • 2. TYPES It offers batter accuracy, higher efficiency, economic and consistency. Some of the nano finishing processes are 1.Abrasive flow machining 2.Chemo mechanical polishing 3.Magnetic abrasive finishing 4.Magneto rheological finishing 5.Magneto rheological abrasive flow finishing
  • 3. ABRASIVE FLOW MACHINING WORKING PRINCIPLE In abrasive flow machining process, the semisolid abrasive media acts as deformable grading wheel; which helps to remove small amount of materials. The abrasive media is given larger force or velocity by hydraulic or mechanical means to push the media into the areas in which conventional finishing process cannot be performed.
  • 4. The hydraulic rams are those which alternatively compress and extrude the abrasive medium from the bottom cylinder to the top through the workpiece. The pressure of the extruding medium is in the range of 0.70 to 0.22 MPa or 100-3200 PSI. Abrasive grit size are 8 to 700 mesh, which enable quick cutting action. Fine grit size are 300-700 mesh for the medium to increase the stiffness. The medium may be mixed with hand or cycled 20-50 times through scrap parts. On repeated action, the medium loses its cutting ability more abrasive or base can be added to reconstitute the mixture.
  • 5. The excess medium is removed from parts using air or vacuum. Also solvents are used to dissolve and destroy the base. While tooling, maximum machining takes place when there is a maximum restriction in media or flow of abrasives. The media stiffness is also used to determine the stock removal. If media has high stiffness, it will result in a flow patterns of pure extrusion process. If the media has low stiffness, then media flow in the centre is faster than along the walls.
  • 6. The pressure and temperature inside the media is determined and controlled. The force acting on the media are the viscous components assist to exert axial forces and tries to move along the direction of applied extrusion pressure. The elastic component assists in exerting radial force which presses the active abrasive particles into the workpiece surface. The viscous and elastic components are used in removing the material in the form of micro nano chips.
  • 7. For effective movement of the chips, the axial force should be greater than the required force because it increases the depth of penetration and remove the material. The surface finish obtained by this process is 0.05 m. The force and velocity diagram in AFM are as shown in figure
  • 8. TYPESOFABRASIVEFLOWMACHINING The types of abrasive flow machining are 1.One way abrasive flow machining 2.Two way abrasive flow machining 3.Orbital abrasive flow machining 1.One WayAbrasive Flow Machining The abrasive processing pushes the media in one way flow as shown in figure. The abrasive media passes in one way processing through the workpiece and exit freely from the other part.
  • 9. The Advantages of One Way AFM The process is faster and easy to clean up small holes in turbines. Machining of larger parts can be done. Temperature control of the media is not required
  • 10. 2. Two WayAbrasive Flow Machining The two way AFM process uses two vertically opposite cylinders to extrude the abrasive media in backward and forward direction through or around the passage formed by the workpiece and tooling. Abrasive action on the workpiece takes place, when the medium enters and passes through the passage as shown in Figure. TheAdvantage of Two Way AFM The process control is excellent The process is used to finish the internal ends and outer diameter of the components
  • 11.
  • 12. 3. Orbital Abrasive Flow Machining This machining process is done by rapid. low amplitude, oscillation of the workpiece relative to self forming elastic plastic abrasive polishing tool. The tool is a pad or layer of abrasive laden elastic plastic medium. The medium used here are higher in viscosity. The medium is pushed from one side with the piston through cylinder as it passes through the workpieces and machining takes place when abrasives passes through the workpiece. The detail is shown in figure
  • 13. 4. PROCESS PARAMETERS INABRASIVEFLOW MACHINING The metal removal rate depends upon the following parameters. 1.Addition of plasticizers 2.Extrusion pressure 3.Number of cycles
  • 14. 1.PlasticizerVs Change in Surface Roughness In process addition of silicon carbide percentage increase the surface roughness of the components. This graph shown at 15% addition of SiC in the Plasticizer has the maximum surface roughness value. The maximum surface roughness value is obtained 5% addition of SiC and maximum at 10% t of plasticizers.
  • 15. 2. Extrusion PressureVsChange in Surface Roughness From this figure the graph shows the maximum change in surface roughness. When 15% of silicon carbide is added to medium and moved in optimum extrusion pressure.
  • 16. 3.Finishing CyclesVs Change in Surface Roughness The surface roughness of components increases with maximum number of finishing cycles. As the finishing cycles are increased from 100 to 400, the surface roughness also increased and good surface finish is obtained. The number of finishing cycles are controlled by mechanical counter 5. ADVANTAGES OFAFM Operations such as deburring polishing and radiusing can be done. It is faster than manual finishing This process is more suitable for batch production
  • 17. It can finish inaccessible areas in one single movement. 5. LIMITATIONSOFAFM It has low finishing rate compared to other nano finishing process. The process involves high production time and high production cost. There should be repeated replacements of poly abrasive media that is used in AFM process. 6. APPLICATIONSOFAFM AFM is used in finishing of Extrusion dies Nozzle of flame cutting touch Air foil surfaces of impellors Accessory parts like fuel spray, nozzle, fuel control bodies.