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Literature DB >> 15323925

Monocrystal elastic constants of the negative-thermal-expansion compound zirconium tungstate (ZrW2O8).

F R Drymiotis¹, H Ledbetter, J B Betts, T Kimura, J C Lashley, A Migliori, A P Ramirez, G R Kowach, J Van Duijn.

Abstract

We measured zirconium tungstate's elastic constants C(ij). This compound shows relatively soft, nearly isotropic elastic constants with normal Poisson ratios and no approach to Born instability. ZrW2O8 shows normal ambient-temperature elastic constants C(ij), but remarkable dC(ij)/dT that show dominant low-frequency acoustic-vibration modes. From the bulk modulus, we estimated the total ambient-temperature thermodynamic Grüneisen parameter as gamma = -1.2. The dB/dT slope gives a Grüneisen parameter gamma = -7. The 300-0 K bulk-modulus increase (40%) seems unprecedented and breaks Birch's law of corresponding states.

Entities: Chemical

Year: 2004 PMID： 15323925 DOI： 10.1103/PhysRevLett.93.025502

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

4 in total

Monocrystal elastic constants of the negative-thermal-expansion compound zirconium tungstate (ZrW2O8).

Review 1. Negative thermal expansion materials: technological key for control of thermal expansion.

2. An all-atom force field developed for Zn₄O(RCO₂)₆ metal organic frameworks.

3. Negative Thermal Expansion Near the Precipice of Structural Stability in Open Perovskites.

4. A Proposal for a Composite with Temperature-Independent Thermophysical Properties: HfV₂-HfV₂O₇.

Monocrystal elastic constants of the negative-thermal-expansion compound zirconium tungstate (ZrW2O8).

Review 1. Negative thermal expansion materials: technological key for control of thermal expansion.

2. An all-atom force field developed for Zn₄O(RCO₂)₆ metal organic frameworks.

3. Negative Thermal Expansion Near the Precipice of Structural Stability in Open Perovskites.

4. A Proposal for a Composite with Temperature-Independent Thermophysical Properties: HfV2-HfV2O7.

4. A Proposal for a Composite with Temperature-Independent Thermophysical Properties: HfV₂-HfV₂O₇.