AA4343/AA3003铝合金薄板钎焊接头的显微组织特征

采用气氛保护钎焊工艺 ,对AA434 3/AA30 0 3铝合金复合板材料的钎焊接头组织特征 ,及其与焊接工艺的关系和对接头区显微硬度的影响进行了研究。实验结果表明 ,钎焊过渡区由单相α(Al)固溶体层和Si扩散层组成 ,它们的厚度随钎焊条件而发生变化。远离焊接区有一个α(Al)固溶体残余层 ,它的厚度保持 2 0 μm基本不变 ,与焊接参数和材料性质无关。讨论了钎焊接头特征组织的形成机理     

Identification and optimization of key process parameters in noncontact laser scanning for reverse engineering

This Extended Technical Note shows that the final accuracy level of reverse engineered surfaces depends on scanning distance and scanning angle of the laser beam, hence it also depends on the morphology of the scanned objects. On scanning strongly curved objects, such as the ones with free form surfaces, the distance and impact angle of the laser beam are changing continuously during the scanning process. On the basis of these, two critical parameters are specified for the design model, which make it possible to predict these two factors in advance, depending on the morphology of the scanned object. First, a mathematical-statistical design model of the scanning process is generated, which relies on ANOVA (analysis of variance) and DOE (design of experiments). In the next step, a fitness function is optimized by the genetic algorithm (GA) program. This optimization improves the accuracy of the final scanned surfaces, in terms of the minimum standard deviation values of reverse engineered 3D surface model. The proposed approach was confirmed in a case study, which is presented at the end of this Technical Note.     

Impacts of using inbred animals in studies for detection of quantitative trait loci

Effects of utilizing inbred and noninbred family structures in experiments for detection of quantitative trait loci (QTL) were compared in this simulation study. Simulations were based on a general pedigree design originating from 2 unrelated sires. A variance component approach of mapping QTL was applied to simulated data that reflected common family structures from dairy populations. Five different family structures were considered: FS0 without inbreeding, FS1 with an inbred sire from an aunt-nephew mating, FS2 with an inbred sire originating from a half-sib mating, FS3 and FS4 based on FS2 but containing an increased number of offspring of the inbred sire (FS3), and another extremely inbred sire with its final offspring (FS4). Sixty replicates each of the 5 family structures in 2 simulation scenarios each were analyzed to provide a praxis-like situation of QTL analysis. The largest proportion of QTL position estimates within the correct interval of 3 cM, best test statistic profiles and the smallest average bias were obtained from the pedigrees described by FS4 and FS2. The approach does not depend on the kind and number of genetic markers. Inbreeding is not a recommended practice for commercial dairy production because of possible inbreeding depression, but inbred animals and their offspring that already exist could be advantageous for QTL mapping, because of reduced genetic variance in inbred parents.     

Effects of gamma irradiation and post-irradiation annealing on carbon/epoxy UDC properties deduced by methods of local loading

Hardness and Young’s modulus of the matrix and fibers in carbon/epoxy gamma irradiated and annealed composites were investigated using nanoindentation technique. The Vickers microhardness of the tested composites after irradiation and annealing was studied, as well. Gamma irradiation to various doses (5-27 MGy) of UDC plates, were followed by thermal treatments of irradiated coupons at 180 and 250 °C, in vacuum. The measured changes of nano and micro properties were correlated to glass transition temperatures, as well as the delamination toughness changes, determined earlier on the same material. The established irradiation and annealing effects on nanoindentation properties and Vickers mocrohardness were analyzed as a function of the matrix plasticity change. An attempt was made to assess the contribution of chain scission mechanism and the change in plasticity mechanism on the property changes from irradiation and subsequent thermal treatments.     

Studies on the mechanism of resistance to rapamycin in human cancer cells

Rapamycin is a potent cytostatic agent that arrests cells in the G1 phase of the cell cycle. The relationships between cellular sensitivity to rapamycin, drug accumulation, expression of mammalian target of rapamycin (mTOR), and inhibition of growth factor activation of ribosomal p70S6 kinase (p70(S6k)) and dephosphorylation of pH acid stable protein I (eukaryotic initiation factor 4E binding protein) were examined. We show that some cell lines derived from childhood tumors are highly sensitive to growth inhibition by rapamycin, whereas others have high intrinsic resistance (>1000-fold). Accumulation and retention of [14C]rapamycin were similar in sensitive and resistant cells, with all cells examined demonstrating a stable tight binding component. Western analysis showed levels of mTOR were similar in each cell line (<2-fold variation). The activity of p70(S6k), activated downstream of mTOR, was similar in four cell lines (range, 11.75-41. 8 pmol/2 x 10(6) cells/30 min), but activity was equally inhibited in cells that were highly resistant to rapamycin-induced growth arrest. Rapamycin equally inhibited serum-induced phosphorylation of pH acid stable protein I in Rh1 (intrinsically resistant) and sensitive Rh30 cells. In serum-fasted Rh30 and Rh1 cells, the addition of serum rapidly induced c-MYC (protein) levels. Rapamycin blocked induction in Rh30 cells but not in Rh1 cells. Serum-fasted Rh30/rapa10K cells, selected for high level acquired resistance to rapamycin, showed >/=10-fold increased c-MYC compared with Rh30. These results suggest that the ability of rapamycin to inhibit c-MYC induction correlates with intrinsic sensitivity, whereas failure of rapamycin to inhibit induction or overexpression of c-MYC correlates with intrinsic and acquired resistance, respectively.     

Balance of Average Annual Fresh Water Inflow into the Adriatic Sea

The Adriatic Sea integral drainage area (about 250 000 km 2) and the integral annual inflow of fresh water, as well as that from surrounding countries Slovenia, Croatia, Bosnia-Herzegovina, Montenegro, Albania- and Italy have been determined, respectively. The inflow is also reported separately for rivers, groundwater, subm arine springs and runoff. Average integral fresh water inflow is about 5500 m 3/s, while the inflow from rivers amounts to nearly 3900 m 3/s. The Adriatic Sea is a great source of clean fresh water for the Mediterranean Sea, transportation taking place during sea-current cyclic movement. The littoral waters are enriched with oxygen, and the environmental quality is improved.     

A Comparative Study of Reactive Wetting of Lead and Lead-Free Solders on Cu and (Cu6Sn5/Cu3Sn)/Cu Substrates

Reactive wetting of solders on Cu and Cu₆Sn₅/Cu₃Sn/Cu substrates was investigated using both (1) the wetting balance, and (2) the hot-stage real time, in situ visualization of the triple-line movement. To understand the phenomenology of the spreading behavior better, comprehensive real-time in situ observations were performed. It was found that the wetting time during the wetting balance tests for both the lead solder (63SnPb) and lead-free solder systems (Sn0.7Cu and Sn3.5Ag) is shorter on Cu substrates than it is on Cu₆Sn₅/Cu₃Sn/Cu substrates. The wetting force was not remarkably different on these two substrates for the same solder system. The hot-stage tests indicate a more pronounced spreading of 63Sn-Pb on Cu₆Sn₅/Cu₃Sn/Cu substrates, along with a much larger spreading area. Spreading of lead-free solders in terms of the triple-line kinetics studied by using the hot-stage visualization shows no significant difference in the spreading evolution either over Cu or over Cu₆Sn₅/Cu₃Sn/Cu substrates.     

Wetting and Spreading Of Liquid Metals Through Open Microgrooves and Surface Alterations

Surface-tension-driven flows (isothermal or non-isothermal) of microlayers of complex liquids over substrates under reactive wetting conditions at elevated temperatures are greatly influenced by interface interactions and topography of surface alterations. For example, understanding of the spreading of molten metals over metal substrates with complex topography may be interpreted as spreading over multiple connected networks of open microchannels. Hence, understanding of the kinetics of wetting and spreading of such reactive systems through microchannels is of a key interest. This article provides an overview of wetting/spreading phenomena related to migration of molten metal microlayer over smooth, rough, and/or well-organized-topography surfaces, such as microchannels. Systems involving a liquid metal medium temperature range (at ～850–873 K, Al-Si over Al), and a low temperature range (～420–520 K, Pb-Sn and Ag-Sn over Cu and Cu-Sn) have been considered. Kinetics data involving triple-line movement and its modeling were supported by real-time in situ visualizations. Targeted applications of these fundamental studies involve the art of brazing of compact aluminum heat exchangers for HVAC&R (heating, ventilation, air conditioning, and refrigeration), thermal management for aerospace, and soldering processes (in particular lead-free) for electronics industries.