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Grain Refining Performance of Al-B Master Alloys with DifferentMicrostructures on Al-7Si Alloy
Tongmin Wang,Zongning Chen,Hongwang Fu,Tingju Li 대한금속·재료학회 2013 METALS AND MATERIALS International Vol.19 No.2
The improved halide salt route has been employed to produce Al-3B master alloys with different microstructures. The microstructural features of AlB2 particles exhibited different impacts on the grain refining response of Al-7Si alloy, evolving with the holding time after inoculation. Large blocky AlB2 particles sufferfrom an intense fading effect while strip-like particles are not effective enough at the 0.005 wt% B addition level. Among the various Al-3B master alloys, sample 1 containing fine, blocky AlB2 particles was revealed to be the most efficient in refining Al-7Si alloy. With inoculation of only 0.005%B of such alloy, the final grainsize of Al-7Si alloy can reach 238 μm. Its grain refining efficiency was more or less retained for holding times up to 60 min.
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Viscous dissipation influencing viscosity of polymer melt in micro channels
Bin Xu,Minjie Wang,Tongmin Yu,Danyang Zhao 대한기계학회 2010 JOURNAL OF MECHANICAL SCIENCE AND TECHNOLOGY Vol.24 No.7
Determination of melt rheological behavior within micro-structured geometry is very important for the accurate simulation modeling of micro-molding. Yet studies on the rheological behavior of polymer melts, flowing through micro channels, are complicated due to a large number of factors affecting the melt viscosity. One factor, viscous dissipation, is investigated in the current work through a novel experimental technique to determine the viscous dissipation of a polymer melt flowing through several micro channels with identical aspect ratio. Relative tests are conducted with the melt of high density polyethylene (HDPE) at different temperatures being extruded through the capillary dies with diameters 1000μm, 500μm and 350μm, respectively. It was found that the temperature rise due to viscous dissipation decreases significantly with the reduction of the characteristic size of micro channel at the same shear rate. In addition, based on the suggested model of radial temperature distribution, the influence of viscous heating on the melt viscosity is investigated. The results indicate that viscous dissipation does not play a significant role.
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Rong Zhou,Zhen Wu,Xu Wang,Eva Rosenqvist,Yinlei Wang,Tongmin Zhao,Carl‑Otto Ottosen 한국원예학회 2018 Horticulture, Environment, and Biotechnology Vol.59 No.4
Tomato cultivation at lower or higher temperatures than the optimum negatively afects plant growth and development. Large diferences in abiotic stress tolerance have been found between Solanum lycopersicum and wild tomato species. Ouraim was to compare temperature stress tolerance in cultivated and wild tomato genotypes to identify cold- and heat-toleranttomatoes for further utilization in tomato breeding. The maintained net photosynthetic rate (PN) and chlorophyll fuorescencewas related to the tolerance of tomatoes at temperature stress. The PN and chlorophyll fuorescence of one cultivated tomato(Ly from S. lycopersicum) and six wild tomatoes genotypes (Ha from Solanum habrochaites, Pe from Solanum pennellii,Pi1 and Pi2 from Solanum pimpinellifolium, Pr1 and Pr2 from Solanum peruvianum) grown at low (12 °C) and high (33 °C)temperatures were compared. The PN of four tomato genotypes during temperature stress were lower than the control, butnot in Pe, Pr1, and Pr2. The maximum quantum efciency of photosystem II (Fv/Fm) of the cultivated tomatoes was lowerat both 12 and 33 °C than the control using Handy PEA, whereas Fv/Fm using MINI-PAM was lower only at 12 °C. Thechlorophyll fuorescence OJIP transient (OJIP curve) revealed diferences between temperature stress responses and tomatogenotype. With the exception of Pr2, the Fv/Fm in wild tomatoes was unafected by temperature stress; however, they stillmaintained clear genotype diferences for other physiological traits such as PN, quantum yield of PSII (Fq′/Fm′), electrontransport rate, non-photochemical quenching, and the fraction of open PSII centers (qL). These results indicated that the wildtomato varieties Pe and Pr1 had the highest temperature stress tolerance, while the cultivated species was the more sensitiveto temperature stress in comparison. In general, the wild tomato genotypes were more tolerant to both cold and heat stressthan the cultivated tomato, suggesting that these wild species could be used to uncover underlying mechanisms of temperaturestress tolerance and will be promising sources of genetic variability for temperature stress tolerance in breeding programs.
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Characteristics of Copper-Clad Aluminum Rods Prepared by Horizontal Continuous Casting
Yubo Zhang,Ying Fu,Jinchuan Jie,Li Wu,Kateryna Svynarenko,Qingtao Guo,Tingju Li,Tongmin Wang 대한금속·재료학회 2017 METALS AND MATERIALS International Vol.23 No.6
An innovative horizontal continuous casting method was developed and successfully used to prepare copper-cladaluminum (CCA) rods with a diameter of 85 mm and a sheath thickness of 16 mm. The solidification structure andelement distribution near the interface of the CCA ingots were investigated by means of a scanning electron microscope,an energy dispersive spectrometer, and an electron probe X-ray microanalyzer. The results showed that theproposed process can lead to a good metallurgical bond between Cu and Al. The interface between Cu and Al wasa multilayered structure with a thickness of 200 μm, consisting of Cu9Al4, CuAl2, α-Al/CuAl2 eutectic, and α-Al +α-Al/CuAl2 eutectic layers from the Cu side to the Al side. The mean tensile-shear strength of the CCA sample was45 MPa, which fulfills the requirements for the further extrusion process. The bonding and diffusion mechanismsare also discussed in this paper.
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