The elastic properties of coexisting natural 3T and 2M1 phengite samples (Cima Pal, Sesia Zone; Val Savenca; Western Alps, Italy) with similar chemical compositions have been studied by room temperature high pressure powder diffraction, using synchrotron radiation on the ID9A beam-line at ESRF (Grenoble, France). The PV curves have been modelled by the BirchMurnaghan model; a third-order expansion fitted to the experimental data yields for 3T and 2M1 K0= 60.4(±0.7) GPa, K¢=5.79(±0.11) at V0= 703.8851 A Ú 3, and K0=57.3(±1.0) GPa, K¢=6.97(± 0.24) at V0= 938.8815 A Ú 3, respectively. The relative stability of 3T vs. 2M1 has been explored as a function of pressure and temperature in terms of configuration and deformation contributions to the Gibbs energy, using the elastic properties determined here and other thermodynamic parameters from earlier investigations. The results presented agree with the hypothesis of stability of the 3T polytype in the high pressure regime.
Elastic properties and stability of coexisting 3T and 2M1 phengite polytypes.
Pavese A;
2006
Abstract
The elastic properties of coexisting natural 3T and 2M1 phengite samples (Cima Pal, Sesia Zone; Val Savenca; Western Alps, Italy) with similar chemical compositions have been studied by room temperature high pressure powder diffraction, using synchrotron radiation on the ID9A beam-line at ESRF (Grenoble, France). The PV curves have been modelled by the BirchMurnaghan model; a third-order expansion fitted to the experimental data yields for 3T and 2M1 K0= 60.4(±0.7) GPa, K¢=5.79(±0.11) at V0= 703.8851 A Ú 3, and K0=57.3(±1.0) GPa, K¢=6.97(± 0.24) at V0= 938.8815 A Ú 3, respectively. The relative stability of 3T vs. 2M1 has been explored as a function of pressure and temperature in terms of configuration and deformation contributions to the Gibbs energy, using the elastic properties determined here and other thermodynamic parameters from earlier investigations. The results presented agree with the hypothesis of stability of the 3T polytype in the high pressure regime.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
