Functional heterophase materials for structural electronics (Q84181): Difference between revisions
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Functional heterophase materials for structural electronics | |||
Revision as of 12:30, 14 October 2020
Project in Poland financed by DG Regio
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Functional heterophase materials for structural electronics |
Project in Poland financed by DG Regio |
Statements
1,987,060.0 zloty
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1,987,060.0 zloty
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100.0 percent
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1 October 2016
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31 March 2020
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POLITECHNIKA WARSZAWSKA
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The main objective of this project is to design, fabricate and characterise a group of composite materials with tailored physical properties for additive manufacturing (3D printing) of structural electronics. A vast range of investigations will be conducted on fabrication of polymer composites with metal, carbon, ceramic, semiconductor, and other type of functional phases – including, but not limited to nanomaterials – with emphasis on rheology, dispersion and homogenization, electrical properties (resistivity, dielectric properties, noises), mechanical and environmental factors and other functional properties (optical, magnetic, piezo, thermal, etc.). Research will be conducted taking into account final application of elaborated materials in Fussed Deposition Modeling, Direct Write, Selective Laser Sintering and PolyJet or Aerosol Jet Printing. Series of demonstrators will be prepared with the use of obtained materials. At this time none of scientific teams has faced such challenge. (Polish)
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The main objective of this project is to design, fabricate and characterise a group of composite materials with tailored physical properties for additive manufacturing (3D printing) of structural electronics. A vast range of investigations will be conducted on fabrication of polymer composites with metal, carbon, ceramic, semiconductor, and other type of functional phases – including, but not limited to nanomaterials – with emphasis on Rheology, dispersion and homogenisation, electrical properties (resistivity, dielectric properties, noises), mechanical and environmental factors and other functional properties (optical, magnetic, piezo, thermal, etc.). Research will be conducted taking into account final application of elaborated materials in fussed Deposition Modeling, Direct Write, Selective Laser Sintering and PolyJet or Aerosol Jet Printing. Series of demonstrators will be prepared with the use of obtained materials. At this time none of scientific teams has faced such challenge. (English)
14 October 2020
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Identifiers
POIR.04.04.00-00-1CE9/16
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