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21 |
Towards a micromechanical understanding of biological surface devices
Enthalten in International journal of materials research Bd. 93, 2022, Nr. 5: 345-351. 7 S.
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22 |
Internal Friction and Creep of Titanium Aluminides with Different Microstructure
Enthalten in International journal of materials research Bd. 92, 2022, Nr. 8: 1019-1025. 7 S.
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23 |
Creep Behavior of γ -TiAl-Based Alloys with Fully Lamellar Microstore
Enthalten in International journal of materials research Bd. 92, 2022, Nr. 8: 1000-1004. 5 S.
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24 |
Cyclic Deformation, Holdtime Creep and Thermomechanical Fatigue of an ODS Superalloy
Enthalten in International journal of materials research Bd. 89, 2022, Nr. 10: 653-660. 8 S.
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25 |
Tuning the Release Force of Microfibrillar Adhesives by Geometric Design
Enthalten in Advanced materials interfaces 16.09.2022. 8 S.
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26 |
Sliding Mechanism for Release of Superlight Objects from Micropatterned Adhesives
Enthalten in Advanced materials interfaces 05.01.2022. 9 S.
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27 |
Jahresbericht 2021 / INM, Leibniz-Institut für Neue Materialien
Enthalten in Leibniz-Institut für Neue Materialien: Jahresbericht ... 2021, 83 S.
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28 |
A Design Strategy for Mushroom-Shaped Microfibrils with Optimized Dry Adhesion: Experiments and Finite Element Analyses
Zhang, Xuan. - Saarbrücken : Leibniz-Institut für Neue Materialien, 2021
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29 |
Breakdown of continuum models for spherical probe adhesion tests on micropatterned surfaces
Bettscheider, Simon. - Saarbrücken : Leibniz-Institut für Neue Materialien, 2021
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30 |
Functional surface microstructures inspired by nature – from adhesion and wetting principles to sustainable new devices
Arzt, Eduard. - Saarbrücken : Leibniz-Institut für Neue Materialien, 2021
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