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Extrusion Process. Extrusion is a process of squeeze forming of a metal under compressive forces, which force the metal to flow out of a restricted opening in a die. A material is pushed or drawn through a die of the desired cross-section.
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Extrusion Process Extrusion is a process of squeeze forming of a metal under compressive forces, which force the metal to flow out of a restricted opening in a die. A material is pushed or drawn through a die of the desired cross-section. Extrusion is a process used to create objects of a fixed cross-sectional profile.
Extrusion process variables • Yield strength of the metal being extruded. • Extrusion temperature. • Degree of reduction / extrusion ratio. • Shape factor & circumscribing circle diameter. • Die characteristcs. • Lubrication type. • Ram speed. • Type of Extrusion.
Lubrication in Extrusion. • As needed • As Preventive Measure Type of Lubrication • Manual • Automatic Lubricants used are: • Molten glass is the most common lubricant for steel and nickel based alloys • Graphite-based lubricants are also be used at high extrusion temperature.
Extrusion Equipment • Extrusion Presses • Auger • Hydraulic Pump • Pressure Intensifier • Drives
Horizontal extrusion presses • 15- 50 MN capacity or upto 140 MN • Used for most commercial extrusion of bars and shapes. • Disadvantages: • Deformation is non-uniform due to different temperatures between top and bottom parts of the billet.
Vertical extrusion presses • 3- 20 MN capacity • Chiefly used in the production of thin-wall tubing. • Advantages: • Easier alignment between the press ram and tools. • Higher rate of production. • Require less floor space than horizontal presses. • uniform deformation, due to uniform cooling of the billet in the container. • Requirements: • Need considerable headroom to make extrusions of appreciable length. • A floor pit is necessary.
Die materials • Dies are made from highly alloy tools steels or ceramics (zirconia, Si3N4 ). (for cold extrusion offering longer tool life and reduced lubricant used, good wear resistance). • Wall thickness as small as 0.5 mm (on flat dies) or 0.7 mm (on hollow dies) can be made for aluminium extrusion. • Heat treatments such as nitriding are required (several times) to increase hardness (1000-1100 Hv or 65-70 HRC). This improves die life, avoiding unscheduled press shutdown.
Die design • Die design is at the heart of efficient extrusion production. • Dies must withstand considerable amount of stresses, thermal shock, and oxidation. • Design Consideration: • Different wall thicknesses in one section should be avoided. • The more simple shape the more cost effective. • Symmetrical shape is more accurate. • Sharp corners should be avoided. • Size to weight ratio • Tolerances are added to allow some distortions (industrial standards).
Defects in Extruded products a) Extrusion defects:
c) Surface Cracking d) Centre burst or Chevron cracking