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Piotter V, Eberl C, Kraft O. (2017) Miniaturisation? Yes, please! German Research. 39: 26-29 |
Slaby SA, Kraft O, Eberl C. (2016) Fatigue properties of conventionally manufactured and micro‐powder‐injection‐moulded 17‐4PH micro‐components Fatigue & Fracture of Engineering Materials & Structures. 39: 780-789 |
Leisen D, Rusanov R, Rohlfing F, et al. (2015) Mechanical characterization between room temperature and 1000 °C of SiC free-standing thin films by a novel high-temperature micro-tensile setup. The Review of Scientific Instruments. 86: 055104 |
Kim BJ, Haas T, Friederich A, et al. (2014) Improving mechanical fatigue resistance by optimizing the nanoporous structure of inkjet-printed Ag electrodes for flexible devices. Nanotechnology. 25: 125706 |
Ulas S, Bundschuh S, Jester SS, et al. (2014) Mechanical properties of C58 materials and their dependence on thermal treatment Carbon. 68: 125-137 |
Yoo BG, Boles ST, Liu Y, et al. (2014) Quantitative damage and detwinning analysis of nanotwinned copper foil under cyclic loading Acta Materialia. 81: 184-193 |
Eber C, Courty D, Walcker A, et al. (2012) Stress-gradient induced fatigue at ultra high frequencies in sub micron thin metal films International Journal of Materials Research. 103: 80-86 |
Burger S, Eberl C, Siegel A, et al. (2011) A novel high-throughput fatigue testing method for metallic thin films. Science and Technology of Advanced Materials. 12: 054202 |
Burger S, Rupp B, Ludwig A, et al. (2011) Fatigue testing of thin films Key Engineering Materials. 465: 552-555 |
Burger S, Eberl C, Siegel A, et al. (2011) A novel high-throughput fatigue testing method for metallic thin films Science and Technology of Advanced Materials. 12 |