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Auxetics : ウィキペディア英語版
Auxetics

Auxetics are materials that have a negative Poisson's ratio. When stretched, they become thicker perpendicular to the applied force. This occurs due to their particular internal structure and the way this deforms when the sample is uniaxially loaded. Auxetics can be single molecules, crystals, or a particular structure of macroscopic matter.
Such materials and structures are expected to have mechanical properties such as high energy absorption and fracture resistance. Auxetics may be useful in applications such as body armor, packing material, knee and elbow pads, robust shock absorbing material, and sponge mops.
The term ''auxetic'' derives from the Greek word αὐξητικός (auxetikos) which means "that which tends to increase" and has its root in the word αὔξησις, or ''auxesis'', meaning "increase" (noun). This terminology was coined by Professor Ken Evans of the University of Exeter.〔.〕
The earliest published example of a synthetic auxetic material was in ''Science'' in 1987, entitled "Foam structures with a Negative Poisson's Ratio" by R.S. Lakes from the University of Iowa. The use of the word ''auxetic'' to refer to this property probably began in 1991.〔.〕
Designs of composites with inverted hexagonal periodicity cell (auxetic hexagon), possessing negative Poisson's ratio, were published in 1985,

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Typically, auxetic materials have low density, which is what allows the hinge-like areas of the auxetic microstructures to flex.〔(A stretch of the imagination - 7 June 1997 - New Scientist Space )〕
At the macroscale, auxetic behaviour can be illustrated with an inelastic string wound around an elastic cord. When the ends of the structure are pulled apart, the inelastic string straightens while the elastic cord stretches and winds around it, increasing the structure's effective volume.
Examples of auxetic materials include:
* Certain rocks and minerals
* Graphene, which can be made auxetic through the introduction of vacancy defects
* Folded sheet materials such as zigzag-based folded sheets.
* Living bone tissue (although this is only suspected)〔
* Tendons within their normal range of motion.
* Specific variants of polytetrafluorethylene polymers such as Gore-Tex〔.〕
* Paper, all types. If a paper is stretched in an in-plane direction it will expand in its thickness direction due to its network structure.〔Baum et al. 1984, Tappi journal, Öhrn, O. E. (1965): Thickness variations of paper on stretching, Svensk Papperstidn. 68(5), 141.〕
*Tailored structures designed to exhibit special designed Poisson's ratios.
*Chain organic molecules. Recent researches revealed that organic crystals like n-paraffins and similar to them may demonstrate an auxetic behavior.
==See also==

* Acoustic metamaterials
* Mechanical metamaterials
* Metamaterials
* Zetix, a type of commercially manufactured auxetic material

抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
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