Presentazione standard di PowerPoint Printing.pdf · May 2013 3D Printing 2 Macroeconomic data...
Transcript of Presentazione standard di PowerPoint Printing.pdf · May 2013 3D Printing 2 Macroeconomic data...
3D Printing Analysis of a sector
Rapid Prototyping
Competitor analysis
May 2013 2 3D Printing
Macroeconomic data
According to Wholers Associates, in 2011 the 3D Printing and additive manufacturing industry has grown globally by
29,4%. In 2007 the market size of 3D printing (including products
and services) was about 1 billion Dollars.
In 2012 it has already reached 2 billion Dollars.
The sectorial CAGR, calculated on the last 24 years, stands at +26,4%. A fundamental factor in this sector is for sure the research and development of new technologies. STRATASYS, one of the three best players in the world, in 2011 has invested 10,8 million Dollars in R&D, equivalent to 11% of the sales.
May 2013 3 3D Printing
Line extension- 1
POWDER
Selective Laser Sintering Selective Laser Melting Electron Beam
Melting
140 x 140 x 100 200 x 250 x 330 380 x 330 x 457 550 x 550 x 460 700 x 380 x 850 125 x 125 x 125 250 x 250 x 320 900 x 800 x 2400 1800 x 1000 x 2200 200 x 200 x 180
3D SYSTEMS 2 2 1 1
STRATASYS (Objet)
EXONE
EOS 2 1 2
ARCAM 2
ENVISIONTEC
VOXELJET
DWS SYSTEMS
ASIGA
MATSUURA 1
MCORTECHNOLOGIES
PHENYX SYSTEM 2 1
REALIZER 1 1
RENISHAW 1 1
SLM SOLUTIONS 1 2 1
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Line extension- 2
POWDER
3D Printing
40 x 60 x 35 127 x 127 x 127 236 x 185 x 127 400 x 250 x 250 500 x 400 x 300 600 x 400 x 180 750 x 380 x 400 850 x 450 x 500 1800 x 1000 x 700 4000 x 2000 x 1000
3D SYSTEMS 6 2 9 1
STRATASYS (Objet) 1 2
EXONE 1 1 1 1
EOS
ARCAM
ENVISIONTEC 5 10 4 2
VOXELJET 1 1 1 1 1
DWS SYSTEMS
ASIGA
MATSUURA
MCORTECHNOLOGIES
PHENYX SYSTEM
REALIZER
RENISHAW
SLM SOLUTIONS
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LIQUID
Multi Jet Modeling PolyJet
171 x 203 x 178 250 x 250 x 250 380 x 380 x 250 550 x 393 x 300 240 x 200 x 150 300 x 200 150 500 x 400 x 200 1000 x 800 x 500
3D SYSTEMS 2 12 1 1
STRATASYS (Objet) 4 5 2 1
EXONE
EOS
ARCAM
ENVISIONTEC
VOXELJET
DWS SYSTEMS
ASIGA
MATSUURA
MCORTECHNOLOGIES
PHENYX SYSTEM
REALIZER
RENISHAW
SLM SOLUTIONS
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LIQUID SOLID
Stereolithography Selective Deposition Lamination Fused Deposition Modeling
65 x 65 x 90 110 x 110 x 100 250 x 250 x 250 380 x 380 x 250 558 x 495 x 419 650 x 350 x 300 1050 x 2050 x 1000 256 X 169 x 150 140 x 140 x 140 254 x 254 x 305 914 x 610 x 914
3D SYSTEMS 3 3 4 4 1 1
STRATASYS (Objet) 6 1
EXONE
EOS
ARCAM
ENVISIONTEC
VOXELJET
DWS SYSTEMS 5 4 3
ASIGA 4
MATSUURA
MCORTECHNOLOGIES 2
PHENYX SYSTEM
REALIZER
RENISHAW 2 2 1
SLM SOLUTIONS
May 2013 7 3D Printing
Line extension - Total
POWDER LIQUID SOLID
Selective Laser
Sintering Selective Laser
Melting Electron Beam
Melting 3D Printing Multi Jet Modeling PolyJet Stereolithography
Selective Deposition Modeling
Fused Deposition Modeling
3D SYSTEMS 4 2 18 16 14 2
STRATASYS (Objet) 3 12 7
EXONE 4
EOS 5
ARCAM 2
ENVISIONTEC 21
VOXELJET 5
DWS SYSTEMS 12
ASIGA 4
MATSUURA 1
MCORTECHNOLOGIES 2
PHENYX SYSTEM 3
REALIZER 2
RENISHAW 2 5
SLM SOLUTIONS 4
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Turnover and number of machinery
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Market players Manufacturers
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Market players European distributors
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Presence in Europe – Distributors and service 3D SYSTEMS
USA
Head office
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STRATASYS EOS
Presence in Europe – Distributors and service
USA
Head office
Head office
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ARCAM VOXELJET SLM SOLUTIONS
Presence in Europe – Distributors and service
Head office
Head office Head office
May 2013 14 3D Printing
This technique involves the use of a high power laser which can fuse small particles of plastic, metal, ceramic and glass in order to realize a three-dimensional product. It doesn’t require support structures.
Application fields:
Manufacturers:
Rapid Prototyping techniques: Selective Laser Sintering Application fields
Automotive Healthcare Dental Consumer goods
May 2013 15 3D Printing
This technique involves melting metallic powder which is manufactured layer-by-layer on the working table of the machine; all this process takes place inside a chamber containing a tightly controlled atmosphere of inert gas (either argon or nitrogen). Materials: steel, cobalt chrome, titanium and aluminium.
Application fields:
Manufacturers:
Rapid Prototyping techniques: Selective Laser Melting Application fields
Automotive Healthcare Aerospace
May 2013 16 3D Printing
In this case we have a technique for metal parts in which each layer is realized with an electron beam in a high vacuum: the result is an extremely dense and strong product. Materials: titanium
Application fields:
Manufacturers:
Rapid Prototyping techniques: Electron Beam Melting Application fields
Automotive Healthcare Aerospace
May 2013 17 3D Printing
This technique allows to create prototypes jetting wax-like materials with a wide area head which creates both the model and the supports. Materials: Plastic, Wax, Metal
Application fields:
Manufacturers:
Rapid Prototyping techniques: Multi Jet Modeling Application fields
Healthcare Consumer goods Jewelry
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The printing head jets layers of liquid photopolymer onto a build tray and cure them with UV light. This is the only technique which allows to jet multiple materials in order to realize one prototype.
Application fields:
Manufacturers:
Rapid Prototyping techniques: Polyjet Application fields
Automotive Healthcare Aerospace Defense
May 2013 19 3D Printing
This technique involves the use of a laser beam which traces a cross-section of a piece: the laser transfers energy, then the liquid resin polymerizes and we obtain a solid layer. This technique allows an high accuracy of details. Material: liquid resin
Application fields:
Manufacturers:
Rapid Prototyping technique: Stereolithography Application fields
Automotive Aerospace Jewelry Dental
May 2013 20 3D Printing
In this technique the model is realized building up successive layers of a paper-like material; as the structure of the material is not modified there aren’t warps due to internal tensions.
Application fields:
Manufacturers:
Rapid Prototyping t.: Selective Deposition Lamination Application fields
Healthcare Consumer goods
May 2013 21 3D Printing
«Extrusion of material»: the sections are realized through the extrusion and deposition of fused material, not through polymerization. The creation of supports if necessary is completely automatic. Materials: ABS, wax, polycarbonate
Application fields:
Manufacturers:
Rapid Prototyping t.: Fused Deposition Modeling Application fields
Automotive Healthcare Aerospace Consumer goods
May 2013 22 3D Printing
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