solid-liquid interface 예문

• Controlling solid - liquid interface configuration during crystal growth of cdznte by vertical bridgman method
• The temperature distribution in a crystallizer has important influence on the position and shape of solid - liquid interface during continuous unidirectional solidification
• The results indicate that the niti shape memory alloy completely solidifies in the crystallizer and the solid - liquid interface presents flat under the given model and various parameters , which meet the basic requirement of continuous unidirectional solidification
• Based on solid - liquid interface ion exchange model , using in - situ data of ph , sediment concentration , trace metal and salinity in the changjiang estuary , solid - liquid phase transformation for metals cu , zn , cd , co , ni through salinity gradient was calculated , and the modeling results was compared with in - situ data sets reported in literature
• On condition of controlling solid - liquid interface preferably and keeping low directional solidification rate , there were particular phenomena in tasi2 fibre development process . generally , it can be divided into three typical steps . the first was star - up period , the second was competition period , the third was stabilization period
• A monte carlo model was developed for simulating the adsorption behaviors of linear macromolecule chains on the solid - liquid interface . the simulations were performed on a simple cubic lattice , which was 50 50 50 sites in size . the concentration profiles of total segments , tails and loops in dilute solutions were used to analyze the influences of simulation parameters ( body concentration , interaction energy between segments , adsorption energy of interface , and macromolecule chain length ) on various adsorption configurations