C. Eberl scite author profile

Dip-in direct-laser-writing (DLW) optical lithography allows fabricating complex three-dimensional microstructures without the height restrictions of regular DLW. Bow-tie elements assembled into mechanical metamaterials with positive/zero/negative Poisson's ratio and with sufficient overall size for direct mechanical characterization aim at demonstrating the new possibilities with respect to rationally designed effective materials.

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Micro- and nanoscale tensile testing of materials

Gianola

Eberl

2009

JOM

185

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Tensile and compressive microspecimen testing of bulk nanoporous gold

Balk

Eberl

Sun

et al. 2009

JOM

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Strain Measurements of Silicon Dioxide Microspecimens by Digital Imaging Processing

et al. 2007

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Silicon dioxide thin film is a common component in electronic devices and in MEMS, but its mechanical properties have rarely been studied. Techniques have been adapted and developed to conduct tensile tests on 1.0 μm thick silicon dioxide specimens that are 100, 150, and 200 μm wide and either 1 or 2 mm long. One end of the specimen remains fastened to the substrate, and the other is glued to a silicon carbide fiber attached to a 30 g load cell mounted on a piezoelectric translation stage. Strain is measured by digital imaging of two gold lines applied to the gage section of the transparent specimen. Twenty-five tests yield a Young's modulus of 60.1±3.4 GPa and a fracture strength of 364±57 MPa.

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Depth-resolved residual stress analysis of thin coatings by a new FIB–DIC method

Sebastiani

Eberl

Bemporad

et al. 2011

Materials Science and Engineering: A

135

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Mechanical Characterization of Coatings Using Microbeam Bending and Digital Image Correlation Techniques

2008

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A new technique for characterizing end-supported microbeams of coating materials is presented. Microbeams are fabricated using micro-EDM machining to isolate the material under investigation from the underlying substrate. Three-and four-point bending is realized by a custom-built microspecimen testing system, and digital image correlation is employed to capture full-field strains and displacements in theses microbeams. These experiments provide the foundation for the use of finite element modeling and inverse methods to determine the mechanical properties (elastic moduli, strength, interfacial toughness) of the coatings. Here, the experimental details of the microbeam bending experiments are explained, discussed and illustrated through application to a multilayered metal/oxide/ ceramic thermal barrier coating system commonly used in aero-turbines.

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Mechanical properties of bulk single crystalline nanoporous gold investigated by millimetre-scale tension and compression testing

Briot

Kennerknecht

Eberl

et al. 2014

Philosophical Magazine

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In this work, the mechanical behaviour of millimetre-scale, bulk single crystalline, nanoporous gold at room temperature is reported for the first time. Tension and compression tests were performed with a custom-designed test system that accommodates small-scale samples. The absence of grain boundaries in the specimens allowed measurement of the inherent strength of millimetre-scale nanoporous gold in tension. The elastic modulus and strength values in tension and compression were found to be significantly lower than values measured with nanoindentation-based techniques and previously reported in the literature, but close to those reported for millimetre-scale polycrystalline samples tested using traditional compression techniques. Fracture toughness was found to be very low, in agreement with the macroscopic brittleness of nanoporous gold, but this is due to the localization of deformation to a narrow zone of ligaments, which individually exhibit significant plasticity and necking

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Actuating Shape Memory Polymer for Thermoresponsive Soft Robotic Gripper and Programmable Materials

et al. 2021

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For soft robotics and programmable metamaterials, novel approaches are required enabling the design of highly integrated thermoresponsive actuating systems. In the concept presented here, the necessary functional component was obtained by polymer syntheses. First, poly(1,10-decylene adipate) diol (PDA) with a number average molecular weight Mn of 3290 g·mol−1 was synthesized from 1,10-decanediol and adipic acid. Afterward, the PDA was brought to reaction with 4,4′-diphenylmethane diisocyanate and 1,4-butanediol. The resulting polyester urethane (PEU) was processed to the filament, and samples were additively manufactured by fused-filament fabrication. After thermomechanical treatment, the PEU reliably actuated under stress-free conditions by expanding on cooling and shrinking on heating with a maximum thermoreversible strain of 16.1%. Actuation stabilized at 12.2%, as verified in a measurement comprising 100 heating-cooling cycles. By adding an actuator element to a gripper system, a hen’s egg could be picked up, safely transported and deposited. Finally, one actuator element each was built into two types of unit cells for programmable materials, thus enabling the design of temperature-dependent behavior. The approaches are expected to open up new opportunities, e.g., in the fields of soft robotics and shape morphing.

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C. Eberl

Tailored 3D Mechanical Metamaterials Made by Dip‐in Direct‐Laser‐Writing Optical Lithography

Micro- and nanoscale tensile testing of materials

Tensile and compressive microspecimen testing of bulk nanoporous gold

Strain Measurements of Silicon Dioxide Microspecimens by Digital Imaging Processing

Depth-resolved residual stress analysis of thin coatings by a new FIB–DIC method

Mechanical Characterization of Coatings Using Microbeam Bending and Digital Image Correlation Techniques

Mechanical properties of bulk single crystalline nanoporous gold investigated by millimetre-scale tension and compression testing

Actuating Shape Memory Polymer for Thermoresponsive Soft Robotic Gripper and Programmable Materials

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