Naringenin enhances antitumor effect of doxorubicin by selective modulating drug efflux pathways. Naringenin will be a useful adjunct to improve the effectiveness of chemotherapeutic agents in treatment of human cancers.
A new constitutive model for semi-solid composites forming was derived with analyzing constitutive relationships of semi-solid metal and composites forming. Parameters in the constitutive model were determined by the multiple nonlinear regression method. A constitutive relationship of semi-solid SiCp/AZ61 composites thixotropic plastic forming was proposed. The calculated results were good agreement with the experimental ones. The proposed constitutive model has the higher forecast precision and practical significance. The construction of constitutive model provides references for the thixotropic forming theory, simulation and technology.
The microstructural evolution of AZ61 semi-solid magnesium alloy during semi-solid
remelting process was studied in this paper. The semi-solid billet was fabricated by strain-induced
melt activation (SIMA) method. The results showed that the initial semi-solid grains melt mainly
through coalescence. With the prolongation of isothermal holding time, the grains grew up and
spheroidized, in which the mean diameter of grain and liquid volume fraction increased. In the
meantime, the higher the holding temperature, the faster the grain grew and spheroidized. The
suitable reheating temperature of AZ61 semi-solid magnesium alloy was 592. The samples were
susceptible to serious deformation beyond 597.
SiCp/AZ61 matrix composites were fabricated by stirring process in the paper. Different SiC volume fractions, processing temperature and stirring time have different influence on tensile strength and elongation of SiC; it is very difficult to find out the best processing parameters with traditional method. An effective method is demonstrated here: The orthogonal experiment design method is put into use at first, and then a satisfied ANN(Artificial Neural Network) is achieved by help of GA’s(Genetic Algorithm) global optimizing capacity. Experimental results proved the prediction accuracy and the adaptability of our work.
The microstructural evolution of SiCp/AZ61 composites during partial remelting was
investigated. The results indicated that the suitable technological parameters of SiCp/AZ61
composites were the reheating temperature of 595°C ~ 600°C and isothermal holding time of
30min ~ 60min. The separation of microstructure of AZ61 matrix was faster than that of SiCp/AZ61
composites during the initial stage. In the meantime, SiCp/AZ61composites hold high stability
during remelting process and a fine semi-solid thixoforming microstructure can be obtained with
increases in temperature and holding time. In addition, the samples of SiCp/AZ61composites were
susceptible to serious deformation and running out above 610°C.
Many new methods for polysilicon texture are invented in solar cell preparation and isotropic acidic corroding has become one of the primary methods for its advantage of fitting for mass production. It is an unavoidable problem that how to evaluate results under different reagent ratio and different reaction time. On the base of Genetic Algorithm (GA), methods for evaluating the best process parameters are given out aided by artificial neural network (ANN), It is proved by experiments that this method can find out the best combinations of process parameters globally.
The thermal stress field in the polysilicon was simulated and comparatively analyzed at different shapes of crucibes which have different types of a flat, a inverted-conical and concave bottom by COMSOL Multiphysics version 4.3a. The results indicated that: within the flat-bottomed crucible ,the isotherm in the crystal was slightly convex and the area of the maximum thermal stress was distributed in the bottom of the crystal edge and near the top of crystal edge; within the inverted-cone crucible, the isotherm in the crystal was straight and the area of the maximum thermal stress was only distributed in the bottom of the crystal edge; within the bottom of the concave crucible, the isotherm in the crystal was slightly concave and the area of the maximum thermal stress distributed in the bottom of the crystal edge was larger than that of the crystal within the first two kinds of crucibles. To sum up, the inverted-cone crucibe was beneficial to reduce the thermal stress distribution in the polysilicon which could provide theoretical guidance for improving the production process of the polysilicon.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.