Negative Linear Compressibility and Auxeticity in Boron Arsenate

Grima, Joseph N.; Vella‐Żarb, Liana

doi:10.1002/andp.201900550

Cited by 15 publications

(44 citation statements)

References 50 publications

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“…The deformation behavior of isotropic glasses, even beyond the elastic limit, has been proposed to be closely related to Poisson's ratio (ν), which is defined as the negative ratio of the transverse strain relative to the longitudinal strain in the elastic loading direction. For example, glasses with low ν are generally more prone to undergo a high degree of densification during indentation [5]-we here note that homogeneous oxide glasses only exhibit positive values of ν, although negative ν is possible in other material families [6]. As such, ν is also closely related to the atomic packing density (C g ) [7], with compressible silica having a low C g and thus a low ν.…”

Section: Introductionmentioning

confidence: 65%

Structure Dependence of Poisson’s Ratio in Cesium Silicate and Borate Glasses

2020

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In glass materials, Poisson’s ratio (ν) has been proposed to be correlated with a variety of features, including atomic packing density (Cg), liquid fragility (m), and network connectivity. To further investigate these correlations in oxide glasses, here, we study cesium borate and cesium silicate glasses with varying modifier/former ratio given the difference in network former coordination and because cesium results in relatively high ν compared to the smaller alkali modifiers. Within the binary glass series, we find positive correlations between ν on one hand and m and Cg on the other hand. The network former is found to greatly influence the correlation between ν and the number of bridging oxygens (nBO), with a negative correlation for silicate glasses and positive correlation for borate glasses. An analysis based on topological constraint theory shows that this difference cannot be explained by the effect of superstructural units on the network connectivity in lithium borate glasses. Considering a wider range of oxide glasses from the literature, we find that ν generally decreases with increasing network connectivity, but with notable exceptions for heavy alkali borate glasses and calcium alumino tectosilicate glasses.

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Section: Introductionmentioning

confidence: 65%

Structure Dependence of Poisson’s Ratio in Cesium Silicate and Borate Glasses

2020

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“…Such systems should not be confused with what is normally represented in modeling and experimental work related to crystalline materials (e.g., ref. [56]) where the pressure is only exerted on the outer surface of the materials (Figure 5b), which in simulations is typically represented by the boundaries of the unit cells. In other words, the way that the systems are modeled is analogous to an open-cell foam material being inserted in a fluid on which pressure is exerted.…”

Section: Simulationsmentioning

confidence: 99%

“…This led to various studies in the last decades which were focused on the design and investigation of honeycombs specifically engineered to exhibit anomalous or superior thermomechanical properties, such as a negative Poisson's ratio (auxetic behavior) . Given the advantages of honeycombs over nonporous solids, when put in the context of the developments which are being made on “negative thermomechanical properties,” it is not surprising that research in the field of “negative honeycombs” is still the subject of extensive research …”

Section: Introductionmentioning

confidence: 99%

On the Design of Multimaterial Honeycombs and Structures with T‐Shaped Joints Having Tunable Thermal and Compressibility Properties

Cauchi

Attard

Grima‐Cornish

2020

Physica Status Solidi (b)

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Honeycombs made from more than one material are proposed and analyzed with the help of finite element simulations. It is shown that such honeycombs are designed to change their shape when subjected to a change in temperature or pressure and can be tailor-made to exhibit particular thermomechanical properties. It is also shown that the anomalous properties of negative thermal expansion/ compressibility can be manifested from honeycombs built from common everyday conventional materials. Applications of such constructs are discussed including their role in the manufacture of smart grips which tighten upon heating.

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“…Likewise, precision microstructural design permits the development of accurately controlled thermal strain, as demonstrated by the NTE microstructure of Vandeperre and Clegg, [ 65 ] which is of great practical importance, including in the design of optical fibers. [ 66 ] Similarly, a novel mechanism has been identified by Grima‐Cornish et al [ 67 ] in boron arsenate, which arises from deformations in the framework tetrahedra rather than tetrahedral rotations, to manifest negative linear compressibility (NLC).…”

Section: Introductionmentioning

confidence: 99%

An Auxetic Metamaterial with Tunable Positive to Negative Hygrothermal Expansion by means of Counter‐Rotating Crosses

Lim

2021

Physica Status Solidi (b)

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A type of mechanical metamaterial is proposed, whereby the effective coefficients of thermal and moisture expansions (CTE and CME, respectively) can be tuned from positive to negative values while maintaining a consistently auxetic (negative Poisson's ratio) behavior for the overall structure. Each unit consists of a pair of equal‐armed crosses pin jointed at their centers, whereas their ends are connected via bridging beams using pin joints to facilitate free rotation. The bridging beams are of lower modulus and higher hygrothermal expansivity to permit negativity in metamaterial's overall Poisson's ratio and hygrothermal expansion. Two sets of effective Young's modulus, CME and CTE models are developed—one set for large deformation and the other for infinitesimal deformation. Results indicate that the effective Young's modulus is reduced while the expansion coefficients become more negative as the inclination angle of the equal‐armed crosses increases, and that the application of tensile and compressive loads increases and decreases the effective Young's modulus, respectively. The establishment of effective zero thermal and moisture expansion conditions facilitates the application of the metamaterial structure that requires auxetic property within highly fluctuating environmental condition.

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Negative Linear Compressibility and Auxeticity in Boron Arsenate

Cited by 15 publications

References 50 publications

Structure Dependence of Poisson’s Ratio in Cesium Silicate and Borate Glasses

Structure Dependence of Poisson’s Ratio in Cesium Silicate and Borate Glasses

On the Design of Multimaterial Honeycombs and Structures with T‐Shaped Joints Having Tunable Thermal and Compressibility Properties

An Auxetic Metamaterial with Tunable Positive to Negative Hygrothermal Expansion by means of Counter‐Rotating Crosses

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