Exploring multistability in prismatic metamaterials through local actuation

AbstractMetamaterials are artificial materials that derive their unusual properties from their periodic architecture. Some metamaterials can deform their internal structure to switch between different properties. However, the precise control of these deformations remains a challenge, as these structures often exhibit non-linear mechanical behavior. We introduce a computational and experimental strategy to explore the folding behavior of a range of 3D prismatic building blocks that exhibit controllable multifunctionality. By applying local actuation patterns, we are able to explore and visualize their complex mechanical behavior. We find a vast and discrete set of mechanically stable configurations, that arise from local minima in their elastic energy. Additionally these building blocks can be assembled into metamaterials that exhibit similar behavior. The mechanical principles on which the multistable behavior is based are scale-independent, making our designs candidates for e.g., reconfigurable acoustic wave guides, microelectronic mechanical systems and energy storage systems.

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Characterization of Hydro-Mechanical Behavior of Compressed Air Energy Storage Systems

PanAm Unsaturated Soils 2017 ◽

10.1061/9780784481691.035 ◽

2018 ◽

Author(s):

Ajay Shastri ◽

Marcelo Sanchez ◽

Thi Minh-Le

Keyword(s):

Energy Storage ◽

Mechanical Behavior ◽

Storage Systems ◽

Compressed Air ◽

Compressed Air Energy Storage ◽

Energy Storage Systems

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Effects of drying and shrinkage on the mechanical performance of unsaturated fine/medium- grained soils used as heat storage media

MATEC Web of Conferences ◽

10.1051/matecconf/202133701022 ◽

2021 ◽

Vol 337 ◽

pp. 01022

Author(s):

Henok Hailemariam ◽

Frank Wuttke

Keyword(s):

Energy Storage ◽

Mechanical Behavior ◽

Elevated Temperatures ◽

Heat Storage ◽

Mechanical Performance ◽

Mechanical Stability ◽

Storage Systems ◽

Storage System ◽

Energy Storage Systems ◽

Storage Media

Studying the mechanical behavior of heat storage media is vital in the safety and design of most sensible and borehole thermal energy storage systems, which are normally built as part of the sub-structure of buildings with load bearing capabilities. In spite of its importance on the efficiency and performance of heat energy storage systems, the mechanical stability and behavior of heat storage materials, mainly at elevated temperatures, has not been given adequate attention in past studies. On this regard, the mechanical behavior of three unsaturated fine- and medium- grained soils from Germany is studied at elevated temperatures, in view of using the soils as a solid sensible heat storage media. The results show a significant dependence of the mechanical behavior of the investigated soils on moisture content and temperature. Furthermore, an increase in shrinkage of the soil specimens with a decrease in the texture of the soils was observed during heating of the soils. The shrinkage behavior is also corroborated with the formation of minor and moderate tensile desiccation cracks of the specimens, which when unaccounted for can result in the lowering of the heat conduction of the heat storage medium, thus lowering the efficiency of the heat storage system.

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