AI Article Synopsis
- A new resistive heated diamond anvil cell has been developed for studying materials under high pressure and temperature, featuring the ability to perform side diffraction.
- The device can analyze polycrystalline samples up to 1100 K and 36 GPa, allowing researchers to explore lattice-preferred orientations.
- Initial results show the instrument's effectiveness in observing texture development in various iron polymorphs during nonhydrostatic compression experiments.
Article Abstract
We introduce the design and capabilities of a resistive heated diamond anvil cell that can be used for side diffraction at simultaneous high pressure and high temperature. The device can be used to study lattice-preferred orientations in polycrystalline samples up to temperatures of 1100 K and pressures of 36 GPa. Capabilities of the instrument are demonstrated with preliminary results on the development of textures in the bcc, fcc, and hcp polymorphs of iron during a nonhydrostatic compression experiment at simultaneous high pressure and high temperature.
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| http://dx.doi.org/10.1063/1.3236365 | DOI Listing |
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