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implementations of mechanical metamaterials for wave manipulation. Standard metamaterial modelling considers an infinite, defect-free periodic structure, consisting of a single unit cell. In this work we will
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an infinite, defect-free periodic structure, consisting of a single unit cell. In this work we will explore the effect of domain interfaces and defects in such a setting. Practical applications require
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conductivity will be compared, and their suitability for the determination of thermal conductivity of newly-developed fine-structured Cu-Mo composites will be evaluated. The methods involve the Laser Flash
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conductivity will be compared, and their suitability for the determination of thermal conductivity of newly-developed fine-structured Cu-Mo composites will be evaluated. The methods involve the Laser Flash
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energy consumption and CO2 emission in aeronautic and transportation industries. Currently, their use as structural material is limited because of their lack of easy slip systems and a plasticity largely
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the findings for the development of fundamental simulation programs. Elaboration and application of the findings for process optimization, regarding efficiency, possible by-products and structure of the produced