1 |
Stereolithography |
50–55 μm |
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Acrylate photopolymer
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Plastic
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Ceramic
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It has high speed that producing functional parts within a day
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Used for making anatomical model, prosthetics, master patterns for injection moulding and various metal casting
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2 |
Selective laser sintering |
45–50 μm |
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Thermoplastics
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Powder
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Plastic
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Metals
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Ceramic
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No supporting material required
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Parts possess high strength and stiffness
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Various finishing possibilities
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Good chemical resistance
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Print prototype functional and end-user parts
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3 |
Fused deposition modelling |
35–40 μm |
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Produced high strength part
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It is cost-effective and waterproof
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Multiple material colours are available
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Use for printing of Polyether ether ketone (PEEK) materials
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Often leads to ribbing that shows lines from each layer.
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Polishing or sanding can be added to remove these lines.
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Supports material may be required
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Temperature fluctuations during production could lead to delamination.
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4 |
Direct metal laser sintering |
20–35 μm |
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Titanium
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Cobalt
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Aluminium
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Bronze alloy
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Steel
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Stainless steel
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Nickel alloy
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Manufactures high strength parts
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Good accuracy of final Product
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Manufactures efficiently any complicated shape product
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5 |
Polyjet 3D printing |
20–85 μm |
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Produced complex shapes, intricate details and delicate features
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More flexible process successfully used in healthcare and dentistry sector
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Used to produce replica of the organ
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Manufacture accurate crowns, bridges and orthodontic appliances
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6 |
Inkjet 3D printing |
35–40 μm |
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Print any complex design part
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It quickly produced parts
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Applied in health care such as print organ
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7 |
Laminated Object Manufacturing |
60–70 μm |
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Need for describing, which requires much labour
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Stability of paper objects is not as excellent as materials used by other AM technology
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8 |
Colour-Jet-Printing |
23–30 μm |
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Produce high-quality colour print
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Very quickly and quietly
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Being portable, it becomes useful for small business or the home office environment.
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9 |
Electron Beam Melting |
40–50 μm |
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Ability to achieve a high energy level in a narrow beam
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Vacuum environment eliminates impurities
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Lower power consumption as well as lower maintenance
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10 |
Multi-Jet Printing |
25–35 μm |
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No ceramic materials available commercially yet
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Lack of precise information on ceramics AM specifications
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High-performance polymer currently prioritised.
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