Powder Metallurgy - PROCESS
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Transcript of Powder Metallurgy - PROCESS
POWDER METALLURGY
PROCESS
Rona Mae L. Taduyo
1. •Blending and mixing (of powders)
2. •Compaction
3. •Sintering
Three Major Steps
* Optional and finishing secondary operations
Powder Metallurgy
Blending
– mixing powder of the same chemical composition but different sizes.
Mixing
– combining powders of different chemistries.
Blending and Mixing
Powder Metallurgy
Blending and mixing are accomplished by mechanical means:
Powder Metallurgy
Except for powders, some other ingredients are usually added:
Lubricants: to reduce the particles-die friction
Binders:to achieve enough strength before sintering
Deflocculants: to improve the flow characteristics during
feeding
Powder Metallurgy
Compaction
Pressure: Cold Isostatic PressingHot Isostatic PressingHigh Energy Rate TechniquesVibratory CompactionContinuous CompactionForging or Extrusion
Pressureless:Slip CastingGravity CompactionContinuous Pressureless Technique
Powder Metallurgy
Pressing processBlended powders are pressed in dies under high pressure to form them into the required shape. The work part after compaction is called a green compactor simply a green, the word green meaning not yet fully processed.
COLD ISOSTATIC PRESSING- Placement of powder in flexible rubber mold
- Hydrostatic pressurization in chamber by water
- Most common pressure of 400 MPa
Typical Application: Automotive cylinder liner
Compaction - Pressure
Powder Metallurgy
Cold Isostatic Pressing
Powder Metallurgy
HOT ISOSTATIC PRESSING- powder container is usually made up of high melting point sheet metal
Pressurizing media: inert gas
Common condition: 100 MPa, 1100°C
Advantages: Compacts of 100% density, good metallurgical
bonding, good mechanical properties
Limitations: wider dimensional tolerances, greater cost & time
Powder Metallurgy
Hot Isostatic Pressing
Powder Metallurgy
HIGH ENERGY RATE TECHNIQUES- Explosive or spark discharge methods are applied in
closed die
- Short time & high pressures-High punch & die wear, limited tolerances, high cost
VIBRATORY COMPACTION- Simultaneous application of pressure & vibration
- Use of much lower pressures
- Complicated equipment design
Powder Metallurgy
CONTINUOUS COMPACTION- Applied to simple shapes (rod, sheet, tube, plate etc)
- Flowing loose powder between a set of vertically oriented rolls at much lower speed
Powder Metallurgy
Continuous Compaction
Powder Metallurgy
FORGING or EXTRUSION• Canning of powder
• Heating or evacuation of sealed container followed by forging or evacuation
• Mechanical or chemical removal of container material
Powder Metallurgy
Typical Compaction Pressure for Various Applications
Powder Metallurgy
SLIP CASTING- Preparation of slip (powder suspended in liquid and additives)
- Keeping slip in mold made up of fluid absorbing material
- Formation of slip casting
- Removal of slip followed by drying operation
Compaction - Pressureless
Powder Metallurgy
CONTINUOUS PRESSURELESS TECHNIQUE- Application of powder in the form of slurry
- Consolidation and drying
- Used to produce porous sheets for electrodes of nickel-cadmium batteries
Powder Metallurgy
Compressed metal powder is heated in a controlled-atmosphere furnace to a temperature below its melting point, but high enough to allow bounding of the particles.
Purpose - to increase strength & hardness of a green compact
Principal variables – temperature ( generally within 70 – 90% of the melting point of metal or alloy), time (10 min. – 8 hours) & furnace atmosphere
Sintering process is concerned with
– diffusion (surface of particles as temperature rises)
– densification (decreases porosity, increases particle contact area)
– recrystallization & grain growth (between particles at the contact area)
Sintering
Powder Metallurgy
The primary driving force for sintering is not the fusion of material, but formation and growth of bonds between the particles, as illustrated in a series of sketches showing on a microscopic scale the changes that occur during sintering of metallic powders.
Powder Metallurgy
Powder Metallurgy
Powder Metallurgy
FINISHING / SECONDARY OPERATIONS1. Sizing – cold pressing to improve dimensional accuracy
2. Coining or pressing - cold working process, to press details into surface
- condensation of sintered product
3. Impregnation - impregnation with heated oil (self lubricated bearings)
- oil fills the pores of the part
4. Infiltration - placement of slug of a lower melting point metal against the sintered part
- infiltration of molten metal by capillary action
- pores are filled with a molten metal
5. Heat treatment , Plating, PaintingPowder Metallurgy
Elemental or Alloy metal
powders
Additives(lubricants or
binders)
Blending and Mixing
Compacting
Sintering
Optional Secondary Finishing
Optional Secondary
Manufacturing
Finished Powder Metallurgy Product
Powder Metallurgy
Finished Powder Metallurgy ProductsPowder Metallurgy
Powder Metallurgy
Powder Metallurgy
THE END...