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 used Stereolithography both as a styling and engineering model which helped us to condense our design cycle”


Customer Testimonial - Hothouse