采用Hertz接触理论处理牛顿摆中球与球之间的相互接触,建立球链碰撞模型,观察到碰撞过程中类似孤立波的传播现象.为了便于处理"n对m"碰撞的计算,编写了带有GUI(graphic user interface)界面的计算程序,可以研究不同撞击球个...采用Hertz接触理论处理牛顿摆中球与球之间的相互接触,建立球链碰撞模型,观察到碰撞过程中类似孤立波的传播现象.为了便于处理"n对m"碰撞的计算,编写了带有GUI(graphic user interface)界面的计算程序,可以研究不同撞击球个数对撞击过程的影响,包括球心位置、球心速度以及相邻小球间的变形量与相互作用力随时间的变化规律.进一步比较了一维球链模型和三维有限元模型的结果,并实验观察了碰撞过程的细节,得到一致性结论.展开更多
Objective To develop a new antimicrobial sensitivity test model for oral products in vitro.Methods A biofilm artificial mouth model for antimicrobial sensitivity tests was established by modifying the LKB chromatograp...Objective To develop a new antimicrobial sensitivity test model for oral products in vitro.Methods A biofilm artificial mouth model for antimicrobial sensitivity tests was established by modifying the LKB chromatography chamber. Using sodium fluoride and Tea polyphenol as antimicrobial agent and Streptococcus mu-tans as target, sensitivity tests were studied. Results The modeling biofilm assay resulted in a MIC of 1. 28mg/ ml for fluoride against S. mutans, which was 32 times the MIC for broth maco-dilution method. The differential resistance of bacteria bioflim to antimicrobial agent relative to planktonic cells was also demonstrated. Conclusion The biofilm artificial mouth model may be useful in oral products test.展开更多
文摘采用Hertz接触理论处理牛顿摆中球与球之间的相互接触,建立球链碰撞模型,观察到碰撞过程中类似孤立波的传播现象.为了便于处理"n对m"碰撞的计算,编写了带有GUI(graphic user interface)界面的计算程序,可以研究不同撞击球个数对撞击过程的影响,包括球心位置、球心速度以及相邻小球间的变形量与相互作用力随时间的变化规律.进一步比较了一维球链模型和三维有限元模型的结果,并实验观察了碰撞过程的细节,得到一致性结论.
文摘Objective To develop a new antimicrobial sensitivity test model for oral products in vitro.Methods A biofilm artificial mouth model for antimicrobial sensitivity tests was established by modifying the LKB chromatography chamber. Using sodium fluoride and Tea polyphenol as antimicrobial agent and Streptococcus mu-tans as target, sensitivity tests were studied. Results The modeling biofilm assay resulted in a MIC of 1. 28mg/ ml for fluoride against S. mutans, which was 32 times the MIC for broth maco-dilution method. The differential resistance of bacteria bioflim to antimicrobial agent relative to planktonic cells was also demonstrated. Conclusion The biofilm artificial mouth model may be useful in oral products test.