We assessed the effects of alcohol exposure in social and isolation housing before puberty on the alcohol consumption later in adulthood. From 25 to 35 days of age, Wistar male rats were exposed to either (a) continuous isolation; (b) continuous social housing; (c) continuous isolation, but placed in social housing during 12 hr every other day; or (d) continuous social housing, but placed in isolation during 12 hr every other day (SOIS group). All males were exposed to 8% ethanol as the only available liquid 12 hr/day every other day in this prepubescent period and to continuous free-choice access to 8% ethanol or water in both social and isolation housing when adulthood was reached. Alcohol consumption before puberty was higher in the group permanently housed in isolation. Both voluntary alcohol intake and preference for alcohol in adulthood also were higher during the isolation than in the social condition in all groups, except in the SOIS group. Alcohol consumption was higher in the SOIS group than in the other groups only during social condition in adulthood. Food intake decreased during the social interaction of the groups that changed their condition from isolated to social or from social to isolated. Results support that (a) isolation facilitates alcohol consumption, and (b) rearing characteristics associated to alcohol intake at an early age can play an important role in later alcohol intake.
Abstract:The solution treatment of an as-cast ASTM F-75 alloy was investigated. Microstructural evolution was followed during thermal processing, in particular with regard to the content and type of carbides formed. To evidence any probable carbide transformations occurring during the heating stage, as well as to clarify their effect on the carbide dissolution kinetics, three heating rates were studied. Image analysis and scanning electron microscopy techniques were used for microstructural characterization. For the identification of precipitates, these were electrolytically extracted from the matrix and then analyzed by X-ray diffraction. It was found that the precipitates in the as-cast alloy were constituted by both a M 23 C 6 carbide and a intermetallic phase. The M 23 C 6 carbide was the only phase identified in solution-treated specimens, regardless of the heating rate employed, which indicated that this carbide dissolved directly into the matrix without being transformed first into an M 6 C carbide, as reported in the literature. It was found that the kinetics of dissolution for the M 23 C 6 carbide decreased progressively during the solution treatment, and that it was sensitive to the heating rate, decreasing whenever the latter was decreased. Because the M 23 C 6 carbide was not observed to suffer a phase transformation prior to its dissolution into the matrix, the effect of the heating rate was associated to the morphological change occurred as the specimens were heated. The occurrence of the observed phases was analyzed with the aid of phase diagrams computed for the system Co-Cr-Mo-C.
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