The combination of copper and N-methylol compounds considerably improves the performance against
copper sensitive fungi (G. trabeum and T. versicolor),
while the fungicidal effect against copper tolerant strain (A. vaillantii)
remained insufficient. Addition of N-methylol compounds to copper solution significantly reduces leaching
from wood blocks impregnated with the solution of the lowest copper concentration (cCu
=0.1%), and less notably reduces leaching from wood blocks impregnated with solutions of higher copper
contents (cCu=0.5%). 相似文献
One of the main issues when using inductive logic programming (ILP) in practice remain the long running times that are needed by ILP systems to induce the hypothesis. We explore the possibility of reducing the induction running times of systems that use asymmetric relative minimal generalisation (ARMG) by analysing the bottom clauses of examples that serve as inputs into the generalisation operator. Using the fact that the ARMG covers all of the examples and that it is a subset of the variabilization of one of the examples, we identify literals that cannot appear in the ARMG and remove them prior to computing the generalisation. We apply this procedure to the ProGolem ILP system and test its performance on several real world data sets. The experimental results show an average speedup of \(36\,\%\) compared to the base ProGolem system and \(12\,\%\) compared to ProGolem extended with caching, both without a decrease in the accuracy of the produced hypotheses. We also observe that the gain from using the proposed method varies greatly, depending on the structure of the data set. 相似文献
In order to provide adequate seismic behavior of masonry walls, local brittle failure of masonry units in the most stressed
zones of structural walls should be prevented. Although robust behavior is required by the code, no specifications are given
regarding the criteria to fulfill this requirement. To propose such criteria, a series of 28 masonry walls, built with six
different types of hollow clay masonry units, currently available on the market, have been tested by subjecting them to cyclic
lateral load at two levels of constant precompression. Besides, the strength characteristics of the units, like compressive
strength orthogonal and parallel to the bed joints and tensile and shear strength of the units have been determined by standardized
and specifically designed testing procedures. By correlating the parameters of seismic resistance of the walls and strength
characteristics of the units, no specific indicator for robustness could have been determined on the basis of the mechanical
characteristics of the tested units. It has been found that in all cases the level of precompression, i.e. the ratio between
the compressive stresses in the walls and the compressive strength of masonry, represents the governing parameter. 相似文献
The simulation of macrosegregation as a consequence of solidification of a binary Al-4.5%Cu alloy in a 2-dimensional rectangular enclosure is tackled in the present paper. Coupled volume-averaged governing equations for mass, energy, momentum and species transfer are considered. The phase properties are resolved from the Lever solidification rule, the mushy zone is modeled by the Darcy law and the liquid phase is assumed to behave like an incompressible Newtonian fluid. Double diffusive effects in the melt are modeled by the thermal and solutal Boussinesq hypothesis. The physical model is solved by the novel Local Radial Basis Function Collocation Method (LRBFCM). The involved physical relevant fields are represented on overlapping 5-noded sub-domains through collocation by using multiquadrics Radial Basis Functions (RBF). The involved first and second derivatives of the fields are calculated from the respective derivatives of the RBFs. The fields are solved through explicit time stepping. The pressure-velocity coupling is calculated through a local pressure correction scheme. The evolution of the solidification process is presented through temperature, velocity, liquid fraction and species concentration histories in four sampling points. The fully solidified state is analyzed through final macrosegregation map in three vertical and three horizontal cross-sections. The results are compared with the classical Finite Volume Method (FVM). A surprisingly good agreement of the numerical solution of both methods is shown and therefore the results can be used as a reference for future verification studies. The advantages of the represented meshless approach are its simplicity, accuracy, similar coding in 2D and 3D, and straightforward applicability in non-uniform node arrangements. The paper probably for the first time shows an application of a meshless method in such a highly non-linear and multi-physics problem. 相似文献
The macroscopic multiphase flow and the growth of the solidification microstructures in the mushy zone of a direct chill (DC) casting are closely coupled. These couplings are the key to the understanding of the formation of the macrosegregation and of the non-uniform microstructure of the casting. In the present paper we use a multiphase and multiscale model to provide a fully coupled picture of the links between macrosegregation and microstructure in a DC cast billet. The model describes nucleation from inoculant particles and growth of dendritic and globular equiaxed crystal grains, fully coupled with macroscopic transport phenomena: fluid flow induced by natural convection and solidification shrinkage, heat, mass, and solute mass transport, motion of free-floating equiaxed grains, and of grain refiner particles. We compare our simulations to experiments on grain-refined and non-grain-refined industrial size billets from literature. We show that a transition between dendritic and globular grain morphology triggered by the grain refinement is the key to the explanation of the differences between the macrosegregation patterns in the two billets. We further show that the grain size and morphology are strongly affected by the macroscopic transport of free-floating equiaxed grains and of grain refiner particles.
Although a significant amount of work has already been devoted to the prediction of macrosegregation in steel ingots, most
models considered the solid phase as fixed. As a result, it was not possible to correctly predict the macrosegregation in
the center of the product. It is generally suspected that the motion of the equiaxed grains is responsible for this macrosegregation.
A multiphase and multiscale model that describes the evolution of the morphology of the equiaxed crystals and their motion
is presented. The model was used to simulate the solidification of a 3.3-ton steel ingot. Computations that take into account
the motion of dendritic and globular grains and computations with a fixed solid phase were performed, and the solidification
and macrosegregation formation due to the grain motion and flow of interdendritic liquid were analyzed. The predicted macrosegregation
patterns are compared to the experimental results. Most important, it is demonstrated that it is essential to consider the
grain morphology, in order to properly model the influence of grain motion on macrosegregation. Further, due to increased
computing power, the presented computations could be performed using finer computational grids than was possible in previous
studies; this made possible the prediction of mesosegregations, notably A segregates.
This article is based on a presentation given at the International Symposium on Liquid Metal Processing and Casting (LMPC
2007), which occurred in September 2007 in Nancy, France. 相似文献
We introduce a new family of fungal protease inhibitors with β-trefoil fold from the mushroom Coprinopsis cinerea, named cocaprins, which inhibit both cysteine and aspartic proteases. Two cocaprin-encoding genes are differentially expressed in fungal tissues. One is highly transcribed in vegetative mycelium and the other in the stipes of mature fruiting bodies. Cocaprins are small proteins (15 kDa) with acidic isoelectric points that form dimers. The three-dimensional structure of cocaprin 1 showed similarity to fungal β-trefoil lectins. Cocaprins inhibit plant C1 family cysteine proteases with Ki in the micromolar range, but do not inhibit the C13 family protease legumain, which distinguishes them from mycocypins. Cocaprins also inhibit the aspartic protease pepsin with Ki in the low micromolar range. Mutagenesis revealed that the β2-β3 loop is involved in the inhibition of cysteine proteases and that the inhibitory reactive sites for aspartic and cysteine proteases are located at different positions on the protein. Their biological function is thought to be the regulation of endogenous proteolytic activities or in defense against fungal antagonists. Cocaprins are the first characterized aspartic protease inhibitors with β-trefoil fold from fungi, and demonstrate the incredible plasticity of loop functionalization in fungal proteins with β-trefoil fold. 相似文献
We have studied the compatibility of Ag and (Co,Cu)Z-hexaferrite with the composition Ba3Co1.4Cu0.6Fe24O41 (Z). In order to do this, the (Co,Cu)Z-hexaferrite was cofired with various amounts of Ag at 900°C. The degradation of the (Co,Cu)Z-hexaferrite to Y- and U-hexaferrite occurred during the cofiring and was confirmed by X-ray diffraction as well as by thermomagnetic measurements. The permeability and permittivity of the cofired ceramics were measured in the range 1 MHz to 10 GHz. For the (Co,Cu)Z-hexaferrite, both these properties were significantly influenced by the Ag when the amount of Ag exceeded a minimum of 4.5 wt%. The influence of the Ag and the degradation of the (Co,Cu)Z-hexaferrite on the permeability were evaluated using the Bruggeman effective media theory. 相似文献
We have investigated the formation of barium hexaferrite via the coprecipitation method. Fine precursor powders were obtained with coprecipitation from water and ethanol solutions of various reagent salts. The coprecipitates were calcined at 300–800 °C for 0–50 h. The samples were characterized with X-ray powder diffraction, thermal analysis, electron microscopy and magnetometry. The formation of barium hexaferrite was a combination of two competing mechanisms and was not influenced by the reagent salts or the solvent. The formation temperature of the barium hexaferrite was reduced to 500 °C by optimizing the coprecipitation conditions. 相似文献