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A cold-sealing capsule design for synthesis of fluid inclusions and other hydrothermal experiments in a piston-cylinder apparatus

¹ Research School of Earth Sciences, The Australian National University, Canberra, ACT 0200, Australia
² Department of Earth and Marine Sciences, The Australian National University, Canberra, ACT 0200, Australia

Here we report on a newly developed, large-volume, cold-sealed capsule design for hydrothermal synthesis experiments in a piston-cylinder apparatus that should be useful for the production of synthetic fluid inclusions at pressures and temperatures not previously attained in gas- or fluid-pressurized reaction vessels. The design is adapted for large-volume experiments using a 30 mm internal-diameter pressure vessel, but can be scaled down to suit smaller pressure vessels, e.g., 15.9 mm (5/8'') internal diameter, if required. Calibration experiments show that temperature varies ±5 °C over the length of a 30 mm (length) x 15 mm (diameter) Cu capsule. The design incorporates the thermocouple within the capsule mass to optimize temperature control. Quartz-hosted H₂O inclusions were synthesized over a range of conditions. Fluid-inclusion densities are consistent with the nominal experimental conditions, suggesting a friction correction is not required. This approach has several advantages over conventional hydrothermal experimental methods: (1) substantially higher pressures are attainable in piston-cylinder than hydrothermal and gas-media apparatus; (2) cold-sealing capsules avoid potential problems associated with welded capsules, such as solution modification; (3) capsule fluids are readily sampled ex situ; (4) the use of relatively thick-walled capsules minimizes H₂-losses during experiments; (5) synthetic fluid inclusions can be used to derive fluid PVTX properties by combining conventional thermometry with analyses of individual fluid inclusions or independent mineral solubility data.

Key Words: Piston-cylinder apparatus • synthetic fluid inclusions • hydrothermal studies • fluid PVTX properties • high-pressure and -temperature fluids • cold-sealed capsule • isochore

This article has been cited by other articles:

				A. C. Hack, A. B. Thompson, and M. Aerts Phase Relations Involving Hydrous Silicate Melts, Aqueous Fluids, and Minerals Reviews in Mineralogy and Geochemistry, July 1, 2007; 65(1): 129 - 185. [Full Text] [PDF]