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ProtoGen 18120

Category: Unspecified , Unspecified
Manufacturer: DSM Somos®
Trademark: ProtoGen
Fillers: -
Ports: Qinzhou, Shekou, Shanghai, Ningbo
Delivery Terms FOB, CIF, DAP, DAT, DDP
PDF: GgynT0_ProtoGen-18120.pdf
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Message
DSM's Somos® ProtoGen 18120 is a liquid, ABS-like photopolymer that produces accurate parts ideal for general purpose applications. Somos® ProtoGen resins are the first stereolithography resins to demonstrate different material properties based on machine exposure control. Based on Somos® Oxetane™ chemistry, Somos® ProtoGen 18120 offers superior chemical resistance, a wide processing latitude and excellent tolerance to a broad range of temperature and humidity, both during and after the build.

Applications
This high-temperature resistant, ABS-like photopolymer is used in solid imaging processes, such as stereolithography, to built three-dimensional parts. Somos® ProtoGen 18120 provides considerable processing latitude and is ideal for the medical, electronic, aerospace and automotive markets that demand accurate RTV patterns, durable concept models, highly accurate and humidity & temperature resistant parts.
General Information
Features
  • Durable
  • Good Chemical Resistance
  • High Heat Resistance
  • Humidity Resistant
Uses
  • Aerospace Applications
  • Automotive Applications
  • Electrical/Electronic Applications
  • General Purpose
  • Medical/Healthcare Applications
  • Modeling Material
  • Mold Making
  • Patterns
Appearance
  • Translucent
Forms
  • Liquid
Processing Method
  • 3D Printing, Stereolithography
PhysicalNominal ValueUnitTest Method
Density 1.16g/cm³
Water Absorption ASTM D570
    Equilibrium 10.75%
    Equilibrium 20.77%
Viscosity (30°C) 300mPa·s
MechanicalNominal ValueUnitTest Method
Poisson's Ratio ASTM D638
    -- 30.43 to 0.45
    -- 40.43
Additional InformationNominal ValueUnit
Critical Exposure 6.73mJ/cm²
Penetration Depth 116.1µm
HardnessNominal ValueUnitTest Method
Durometer Hardness ASTM D2240
    Shore D 587 to 88
    Shore D 684 to 85
MechanicalNominal ValueUnitTest Method
Tensile Modulus ASTM D638
    -- 72540 to 2620MPa
    -- 82910 to 2990MPa
    -- 92620 to 2740MPa
Tensile Strength ASTM D638
    -- 1068.8 to 69.2MPa
    -- 1156.9 to 57.1MPa
    -- 1251.7 to 54.9MPa
Tensile Elongation ASTM D638
    Break 136.0 to 12%
    Break 147.0 to 8.0%
    Break 158.0 to 12%
Flexural Modulus ASTM D790
    -- 162360 to 2480MPa
    -- 172330 to 2490MPa
    -- 182400 to 2450MPa
Flexural Strength ASTM D790
    -- 1981.8 to 83.8MPa
    -- 2088.5 to 91.5MPa
    -- 2183.8 to 86.7MPa
ImpactNominal ValueUnitTest Method
Notched Izod Impact ASTM D256A
    -- 2213 to 25J/m
    -- 2314 to 26J/m
ThermalNominal ValueUnitTest Method
Deflection Temperature Under Load ASTM D648
    0.45 MPa, Unannealed 2495.0 to 97.0°C
    0.45 MPa, Unannealed 2555.0 to 58.0°C
    1.8 MPa, Unannealed 2648.0 to 50.0°C
    1.8 MPa, Unannealed 2779.0 to 82.0°C
Glass Transition Temperature ASTM E1545
    -- 2871.0 to 86.0°C
    -- 2976.0 to 94.0°C
CLTE - Flow ASTM E831
    -40 to 0°C 306.5E-5 to 6.8E-5cm/cm/°C
    -40 to 0°C 316.4E-5 to 7.2E-5cm/cm/°C
    0 to 50°C 328.5E-5 to 9.5E-5cm/cm/°C
    0 to 50°C 337.5E-5 to 1.1E-4cm/cm/°C
    50 to 100°C 349.9E-5 to 1.1E-4cm/cm/°C
    50 to 100°C 359.4E-5 to 1.2E-4cm/cm/°C
    100 to 150°C 361.5E-4 to 1.6E-4cm/cm/°C
    100 to 150°C 371.4E-4 to 1.7E-4cm/cm/°C
ElectricalNominal ValueUnitTest Method
Dielectric Strength ASTM D149
    -- 3815 to 16kV/mm
    -- 3914 to 15kV/mm
Dielectric Constant ASTM D150
    60 Hz 403.50 to 3.60
    60 Hz 413.40 to 3.50
    1 kHz 423.30 to 3.40
    1 kHz 433.40 to 3.50
    1 MHz 443.20 to 3.30
    1 MHz 453.10 to 3.20
Note Message
1 .UV Postcure & Thermal Postcure
2 .UV Postcure at HOC -2
3 .UV Postcure at HOC -2
4 .UV Postcure & Thermal Postcure
5 .UV Postcure & Thermal Postcure
6 .UV Postcure at HOC -2
7 .UV Postcure at HOC +3
8 .UV Postcure & Thermal Postcure
9 .UV Postcure at HOC -2
10 .UV Postcure & Thermal Postcure
11 .UV Postcure at HOC +3
12 .UV Postcure at HOC -2
13 .UV Postcure at HOC -2
14 .UV Postcure & Thermal Postcure
15 .UV Postcure at HOC +3
16 .UV Postcure at HOC -2
17 .UV Postcure & Thermal Postcure
18 .UV Postcure at HOC +3
19 .UV Postcure at HOC -2
20 .UV Postcure & Thermal Postcure
21 .UV Postcure at HOC +3
22 .UV Postcure & Thermal Postcure
23 .UV Postcure at HOC -2
24 .UV Postcure & Thermal Postcure
25 .UV Postcure at HOC -2
26 .UV Postcure at HOC -2
27 .UV Postcure & Thermal Postcure
28 .UV Postcure at HOC -2
29 .UV Postcure & Thermal Postcure
30 .UV Postcure at HOC -2
31 .UV Postcure & Thermal Postcure
32 .UV Postcure at HOC -2
33 .UV Postcure & Thermal Postcure
34 .UV Postcure & Thermal Postcure
35 .UV Postcure at HOC -2
36 .UV Postcure at HOC -2
37 .UV Postcure & Thermal Postcure
38 .UV Postcure & Thermal Postcure
39 .UV Postcure at HOC -2
40 .UV Postcure & Thermal Postcure
41 .UV Postcure at HOC -2
42 .UV Postcure at HOC -2
43 .UV Postcure & Thermal Postcure
44 .UV Postcure & Thermal Postcure
45 .UV Postcure at HOC -2
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