W. Szpak scite author profile

Intravaginal devices composed of polyhydroxybutyrate/polycaprolactone blends incorporating progesterone were used over eight days in crossbred cow ovariectomized, and then analyzed with photoacoustic methods, measuring the absorption spectra, thermal diffusivity, and inspecting its degradation by means of scanning electron microscopy. The characteristic time found for progesterone release was TR ∼ 53 h, and the typical time found for biodegradation was TB ∼ 30 h. Morphological analysis complements the study showing that release of progesterone and biodegradation of the blend occurs on sample surface.

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Corrigendum to “Simulation of a solar curie wheel using NiFe alloy and Gd” [Int. J. Refrig. 37 (2013) 215–222]

Alves

Colman

Foleiss

et al. 2014

International Journal of Refrigeration

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Non-destructive thermal wave method applied to study thermal properties of fast setting time endodontic cement

Picolloto

Mariucci

Szpak

et al. 2013

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The thermal wave method is applied for thermal properties measurement in fast endodontic cement (CER). This new formula is developed upon using Portland cement in gel and it was successfully tested in mice with good biocompatibility and stimulated mineralization. Recently, thermal expansion and setting time were measured, conferring to this material twice faster hardening than the well known Angelus Mineral trioxide aggregate (MTA) the feature of fast hardening (∼7 min) and with similar thermal expansion (∼12 μstrain/ °C). Therefore, it is important the knowledge of thermal properties like thermal diffusivity, conductivity, effusivity in order to match thermally the tissue environment upon its application in filling cavities of teeth. Photothermal radiometry technique based on Xe illumination was applied in CER disks 600 μm thick for heating, with prepared in four particle sizes (25, 38, 45, and 53) μm, which were added microemulsion gel with variation volumes (140, 150, 160, and 170) μl. The behavior of the thermal diffusivity CER disks shows linear decay for increase emulsion volume, and in contrast, thermal diffusivity increases with particles sizes. Aiming to compare to MTA, thermal properties of CER were averaged to get the figure of merit for thermal diffusivity as (44.2 ± 3.6) × 10−3 cm2/s, for thermal conductivity (228 ± 32) mW/cm K, the thermal effusivity (1.09 ± 0.06) W s0.5/cm2 K and volume heat capacity (5.2 ± 0.7) J/cm3 K, which are in excellent agreement with results of a disk prepared from commercial MTA-Angelus (grain size < 10 μm using 57 μl of distilled water).

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W. Szpak

Numerical simulation and design of a thermomagnetic motor

Simulation of solar Curie wheel using NiFe alloy and Gd

Photoacoustic methods for in vitro study of kinetics progesterone release from the biodegradation of polyhydroxybutyrate/polycaprolactone used as intravaginal devices

Corrigendum to “Simulation of a solar curie wheel using NiFe alloy and Gd” [Int. J. Refrig. 37 (2013) 215–222]

Non-destructive thermal wave method applied to study thermal properties of fast setting time endodontic cement

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