Manar Samri scite author profile

Manar Samri

3Publications

20Citation Statements Received

91Citation Statements Given

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Leibniz-Institute for New Materials, Saarland University

Publications

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A bioinspired snap-through metastructure for manipulating micro-objects

et al. 2022

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Micro-objects stick tenaciously to each other—a well-known show-stopper in microtechnology and in handling micro-objects. Inspired by the trigger plant, we explore a mechanical metastructure for overcoming adhesion involving a snap-action mechanism. We analyze the nonlinear mechanical response of curved beam architectures clamped by a tunable spring, incorporating mono- and bistable states. As a result, reversible miniaturized snap-through devices are successfully realized by micron-scale direct printing, and successful pick-and-place handling of a micro-object is demonstrated. The technique is applicable to universal scenarios, including dry and wet environment, or smooth and rough counter surfaces. With an unprecedented switching ratio (between high and low adhesion) exceeding 10 4 , this concept proposes an efficient paradigm for handling and placing superlight objects.

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Predicting the adhesion strength of micropatterned surfaces using supervised machine learning

et al. 2022

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Effect of Subsurface Microstructures on Adhesion of Highly Confined Elastic Films

Samri

Kossa

Hensel

2020

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Polymer adhesive films sandwiched between two rigid solids are a common bonding strategy. The mechanics and consequently the adhesion of such geometrically confined films depend mainly on their thickness, the Young's modulus and the Poisson's ratio of the material. In this work, we explore the effect of a micropatterned subsurface embedded into the adhesive layer. We compare experiments with three-dimensional numerical simulations to evaluate the impact of the microstructure on the contact stiffness and effective modulus. The results are used to extend a previously proposed size scaling argument on adhesion from incompressible to slightly compressible materials to account for the silicone used in our study with a Poisson's ratio of 0.495. In addition, interfacial stress distributions between the elastic film and the glass disc are obtained from plane strain simulations to evaluate characteristic adhesion failures such as edge cracks and cavitation. Overall, the micropatterned subsurface has large impact on the contact stiffness, the interfacial stress distribution, and the detachment behavior; however, the adhesion performance is only slightly improved in comparison to a non-patterned subsurface.

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Manar Samri

A bioinspired snap-through metastructure for manipulating micro-objects

Predicting the adhesion strength of micropatterned surfaces using supervised machine learning

Effect of Subsurface Microstructures on Adhesion of Highly Confined Elastic Films

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