Nanotool

NanoTool Datasheet - High Temperature Stereolithography Material

 

Nanotool Applications

 

  • Wind tunnel testing for motorsport/aerospace
  • Production of rapid tools for injection moulding
  • Where heat generated by Electrical components may be a factor i.e. lighting design
  • Covers & Enclosures of Electrical & Mechanical components
  • Where metal plating of prototype parts is required.
 Physical Properties
 Colour Off White
 Type High Temperature Resin
Exceptional Stiffness & Thermal Resistance
Mechanical Properties
 Test/ISO
Hardness  Shore A/D  94D
Flexural Strength 79 – 121 (MPa)  ATSM D790
Flexural Modulus 10,200 – 10,800 (MPa)
Tensile Modulus  11,000 – 11,400 (MPa)  ATSM D638
Tensile Strength 61.7 – 78 (MPa)
Impact Strength  0.12 – 0.15 J/m ATSM D256
Elongation Break (%)  0.7 – 1.0%  ATSM D638
   Thermal & Scientific Properties
Glass Transition Temperature  57 – 62°C DMA,E”
Heat Deflection Temp. (°C) ATSM D648
   @66 PSI 225°C
   @264 PSI 85 – 90°C
   @66 PSI w/ thermal postcure  258 – 263°C
Co-efficient of Thermal Expansion ASTM E831-93
   TMA (<Tg, -40 – 0°C) 25.3 – 26 µm/m – °C
   TMA (T<Tg, 0- 50°C) 30.4 – 32.4 µm/m – °C
   TMA (T<Tg, 50- 100°C) 75.9 – 87.4 µm/m – °C
   TMA (T<Tg, 100- 150°C) 90.0 – 95.7 µm/m – °C

Nanotool Applications

 

  • Wind tunnel testing for motorsport/aerospace
  • Production of rapid tools for injection moulding
  • Where heat generated by Electrical components may be a factor i.e. lighting design
  • Covers & Enclosures of Electrical & Mechanical components
  • Where metal plating of prototype parts is required.
Physical Properties
Colour Off White
Type High Temperature Resin
Exceptional Stiffness & Thermal Resistance
Mechanical Properties
Hardness Shore A/D 94D
Flexural Strength 79 – 121 (MPa) Test/ISO: ATSM D790
Flexural Modulus 10,200 – 10,800 (MPa) Test/ISO: ATSM D790
Tensile Modulus 11,000 – 11,400 (MPa) Test/ISO: ATSM D638
Tensile Strength 61.7 – 78 (MPa) Test/ISO: ATSM D638
Impact Strength 0.12 – 0.15 J/m Test/ISO: ATSM D256
Elongation Break (%) 0.7 – 1.0% Test/ISO: ATSM D638
Thermal & Scientific Properties
Glass Transition Temperature 57 – 62°C Test/ISO: DMA,E”
Heat Deflection Temp. (°C) @66 PSI 225°C Test/ISO: ATSM D648
Heat Deflection Temp. (°C) @264 PSI 85 – 90°C Test/ISO: ATSM D648
Heat Deflection Temp. (°C) @66 PSI w/ thermal postcure 258 – 263°C Test/ISO: ATSM D648
Co-efficient of Thermal Expansion TMA (<Tg, -40 – 0°C) 25.3 – 26 µm/m – °C Test/ISO: ASTM E831-93
Co-efficient of Thermal Expansion TMA (T<Tg, 0- 50°C) 30.4 – 32.4 µm/m – °C Test/ISO: ASTM E831-93
Co-efficient of Thermal Expansion TMA (T<Tg, 50- 100°C) 75.9 – 87.4 µm/m – °C Test/ISO: ASTM E831-93
Co-efficient of Thermal Expansion TMA (T<Tg, 100- 150°C) 90.0 – 95.7 µm/m – °C Test/ISO: ASTM E831-93

 

 

Testimonial

“We’d just like to thank you and all the team at LPE very much for all your help and excellent service, and sending us the parts that were manufactured very well and delivered very quickly. They helped us so much in the competition, and our car won Fastest Car at the National Formula 1 in schools Ireland Final 2013”