The on-off cycling operating condition of compressors is very common in low capacity refrigeration systems, being characterized by alternate periods in which the compressor is either operating (on) ...or idle (off). Thermal interactions between the compressor components affect its performance during the operating period and establish the initial condition for the compressor start up from idle condition. This paper presents a numerical model to predict the temperature field of hermetic reciprocating compressors under on-off cycling conditions. The model adopts a lumped formulation for control volumes formed in the fluid solution domain and the finite volume method to solve heat conduction in the solid components. Some required heat transfer coefficients were experimentally adjusted. Predictions for temperature were compared to measurements and good agreement was observed, especially for the thermal transient during the period in which the compressor is off.
The aim of the present study was to evaluate the influence of titanium-coated polymers on the inflammatory response and remodeling of connective tissue during wound-healing processes. Discs of ...polyethyleneterephthalate (PET) and silicone as well as high-weight meshes of polypropylene (PP) were coated with a titaniumcarboxonitride (Ti(C,N,O)) layer by a plasma-assisted chemical vapor deposition process (PACVD) and implanted subcutaneously in the dorsal lumbar region of Wistar rats. Light microscopic and histological evaluation of capsule thickness, capsule quality, implant–tissue interface and collagen composition was performed 7, 14, 21 and 28 days post-operatively. All implants were surrounded by a fibrous capsule with decreasing thickness after 2–4 weeks post-implantation. Titaniumcarboxonitride-coated polymers showed no significant differences in capsule thickness and inflammatory cellular response. An increased collagen type III/I ratio, especially for titaniumcarboxonitride-coated materials, was found in week one after implantation remaining elevated up to week 4. This might be associated with disordered collagen metabolism and immature scar reaction. In contrast to previous in vitro experiments, Ti-coating of polymers did not improve biocompatibility after subcutaneous implantation in rats. Material reduction to low-weight meshes and enlargement of pore size may demonstrate a benefit of Ti-coated meshes with an increased biocompatibility.
The aim of the present study was to evaluate the influence of titanium-coated polymers on the inflammatory response and remodeling of connective tissue during wound-healing processes. Discs of ...polyethyleneterephthalate (PET) and silicone as well as high-weight meshes of polypropylene (PP) were coated with a titanium carboxonitride (Ti(C,N,O)) layer by a plasma-assisted chemical vapor deposition process (PACVD) and implanted subcutaneously in the dorsal lumbar region of Wistar rats. Light microscopic and histological evaluation of capsule thickness, capsule quality, implant-tissue interface and collagen composition was performed 7, 14, 21 and 28 days post-operatively. All implants were surrounded by a fibrous capsule with decreasing thickness after 2-4 weeks post-implantation. titanium carboxonitride-coated polymers showed no significant differences in capsule thickness and inflammatory cellular response. An increased collagen type III/I ratio, especially for titanium carboxonitride-coated materials, was found in week one after implantation remaining elevated up to week 4. This might be associated with disordered collagen metabolism and immature scar reaction. In contrast to previous in vitro experiments, Ti-coating of polymers did not improve biocompatibility after subcutaneous implantation in rats. Material reduction to low-weight meshes and enlargement of pore size may demonstrate a benefit of Ti-coated meshes with an increased biocompatibility. 28 refs.
The possibility that peripheral hypothermia may impair muscular performance in various sports led us to assess the usefulness of the Wingate anaerobic power test in subjects with normal and cooled ...leg muscles. Using this test without modification, peak power, average power output, and cumulated work to the point of fatigue were all decreased by cooling, although the fatigue index (the declining rate of change of power output) was less. It is concluded that this test could usefully be employed in field studies to assess the possibility that muscle chilling may influence a person's potential for producing maximal bursts of muscular work.
Treatment of human neoplastic cells with dacarbazine both inhibits DNA synthesis and induces damage in the DNA. Lysis of cells in dilute alkali and subsequent electrophoretic analysis of the isolated ...DNA show that the DNA of treated cells includes a high molecular weight component and a population of 2-10-kilobase single-stranded DNA fragments while untreated cells contain only high molecular weight DNA. When DNA is pulse-labeled at the beginning of the dacarbazine treatment high amounts of small DNA fragments are seen but no labeled high molecular weight DNA. Moreover the DNA fragments are not formed in cells which are treated with aphidicolin before the addition of dacarbazine. Aphidicolin is a specific inhibitor of DNA polymerase alpha, the enzyme responsible for the replicative synthesis of DNA. We conclude that dacarbazine damages DNA only in cells which are synthesizing new DNA.
High-Speed and Low-Energy Nitride Memristors Choi, Byung Joon; Torrezan, Antonio C.; Strachan, John Paul ...
Advanced functional materials,
August 2, 2016, Letnik:
26, Številka:
29
Journal Article
Recenzirano
Odprti dostop
High‐performance memristors based on AlN films have been demonstrated, which exhibit ultrafast ON/OFF switching times (≈85 ps for microdevices with waveguide) and relatively low switching current ...(≈15 μA for 50 nm devices). Physical characterizations are carried out to understand the device switching mechanism, and rationalize speed and energy performance. The formation of an Al‐rich conduction channel through the AlN layer is revealed. The motion of positively charged nitrogen vacancies is likely responsible for the observed switching.
Ultrafast switching of an AlN memristor: ON switching is acheived using an 85 ps positive voltage pulse, and OFF switching using an 85 ps negative voltage pulse on the Al electrode of a Pt/AlN/Al memristor stack. A relatively low switching current (≈15 μA for 50 nm devices) has also been demonstrated in these memristors based on AlN films. The formation of an Al‐rich conduction channel through the AlN layer is revealed.
Brazil and South Africa, countries with economies in transition, are characterized by a dual agrarian structure co-occurring, sometimes, alongside in the same region. Large-scale commercial farming ...produces crops for export to global markets on the one hand, and small-scale farming, on the other hand, provides for subsistence and local markets. In both systems, maize (Zea mays) is a key crop for these two countries. For the commercial system, maize is a commodity crop while for the small-scale system it is the prime staple crop. In commercial systems, farmers predominantly grow genetically modified (GM) hybrid maize. In small-scale systems, farmers rely on open pollinated varieties (OPVs) and/or landraces and are largely dependent on seed saving systems. The aim of this study was to understand the relationship between transgene expression rates, the resulting concentrations of the transgene product (Bt protein) and its bioactivity in insect pests following transgene flow from GM hybrid maize into non-genetically modified, non-GM near-isogenic maize hybrid (ISO) and OPVs. We modeled segregation patterns and measured cry1Ab transgene expression (mRNA quantification), Cry1Ab protein concentration and pest survival. Two groups of F1, F2 crosses and backcrosses with GM, ISO and OPV maize varieties from Brazil and South Africa were used. Bioassays with the larvae of two lepidopteran maize pest species, Helicoverpa armigera and Spodoptera littoralis, were carried out. Overall, the cry1Ab transgene outcrossed effectively into the genetic backgrounds tested. The cry1Ab transgene was stably expressed in both ISO and OPV genetic backgrounds. Transgene introgression led to consistent, though highly variable, concentrations of Cry1Ab toxins that were similar to those observed in GM parental maize. Most crosses, but not all, suggested the expected Mendelian segregation pattern. Transgene expression rates were significantly higher than expected from purely Mendelian segregation in the South African crosses. In South African materials, ISO and OPV crosses produced significantly lower Cry1Ab concentrations compared to the GM parental maize. The Cry1Ab toxins from crosses were bioactive and induced mortality rates of greater than or equal to92.19% in H. armigera and greater than or equal to40.63% in S. littoralis after a period of only 4 days. However, no correlations were observed between the quantitation of mRNA for cry1Ab and the corresponding Cry1Ab protein concentrations, nor between the Cry1Ab concentrations and insect mortality rates across different genetic backgrounds. We therefore suggest that while transcription of the cry1Ab transgene reliably determines the presence of Cry1Ab protein, mRNA levels do not reflect, by themselves, the end Cry1Ab protein concentrations found in the plant. Because predictably high Cry1Ab concentrations are a key prerequisite for effective insect resistance management (IRM) programs, this observation raises questions about the effectiveness of such programs in scenarios with complex crop genetic backgrounds. On the other hand, confirmed bioactivity in all crosses should be expected to impact small farmer's selection behavior, unknowingly favoring the insecticidal trait. This may lead to a fixation of the trait in the wider population, and may influence the genetic diversity of varieties maintained by small-scale farmers.