Nano-indenter for dynamic nanoscale testing including continuous stiffness measurements, in-situ scanning probe microscopy, and high-speed mechanical microscopy
The nanoindentation system shall support the investigation of ion radiation induced damage and other degradation in metals, ceramics, claddings, protective coatings and thin films. The system shall enable high resolution nanoindentation using both quasi static and dynamic measurement techniques, in-situ scanning probe ...
Angebotsfrist:30. April 2026
Typ:Ausschreibung
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The nanoindentation system shall support the investigation of ion radiation induced damage and other degradation in metals, ceramics, claddings, protective coatings and thin films. The system shall enable high resolution nanoindentation using both quasi static and dynamic measurement techniques, in-situ scanning probe microscopy, and h...
- Ausschreibungstyp: Ausschreibung
- Auftraggeber: European Commission, DG GROW - Internal Market, Industry, Entrepreneurship and SMEs
- Veröffentlicht: 10. März 2026
- Frist: 30. April 2026
- Thema: Messtechnik
Ausschreibungsbeschreibung
The nanoindentation system shall support the investigation of ion radiation induced damage and other degradation in metals, ceramics, claddings, protective coatings and thin films. The system shall enable high resolution nanoindentation using both quasi static and dynamic measurement techniques, in-situ scanning probe microscopy, and high-speed mechanical property mapping (i.e., mechanical microscopy), thereby allowing precise probing of damage gradients and other microstructural features.
Weiterführende Details
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