Browsing by Author "Zhong, Zhong"

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    Citation - WoS: 12
    Citation - Scopus: 11
    Thermal Expansion of Nano-Boron Carbide Under Constant Dc Electric Field: an in Situ Energy Dispersive X-Ray Diffraction Study Using a Synchrotron Probe
    (CAMBRIDGE UNIV PRESS, 2020) Biçer, Hülya; Akdoğan, Enver Koray; Şavklıyıldız, İlyas; Haines, Christopher; Zhong, Zhong; Tsakalakos, Thomas
    The thermal expansion coefficient (TEC) of nano-B4C having 50 nm mean particle size was measured as a function of applied direct current (DC) electric field strength varying from 0 to 12.7 V/mm and over a temperature range from 298 K up to 1273 K. The TEC exhibits a linear variation with temperature despite being measured over a range that is well below 50% of B4C's normal melting temperature. The zeroth- and first-order TEC coefficients under zero-field condition are 4.8220 +/- 0.009 x 10(-6) K-1 and 1.462 +/- 0.004 x 10(-9) K-1, respectively. Both TECs exhibit applied DC electric field dependence. The higher the applied field strength, the steeper the linear thermal expansion response in nano-B4C, which suggests that the applied field affects the curvature of the interatomic potentials at the equilibrium bond length at a given temperature. No anisotropic thermal expansion with and without applied electric field was observed, although nano-B4C has a rhombohedral unit cell symmetry. The rhombohedral unit cell angle was determined as delta(R) = 65.7046 degrees (0.0007), and it remains unaffected by a change in temperature and applied electric field strength, which we attribute to B4C nanoparticle size and its carbon saturation.