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本文中研究了手指触摸粗糙表面的摩擦振动特性、脑电生理反应和主观评价,为产品触感舒适性和抓握可靠性设计以及产品触感量化表征提供理论依据.研究结果显示:随着表面轮廓算术平均偏差和轮廓单元平均宽度的降低,摩擦系数和功率谱重心逐渐增大,垂直偏差逐渐降低;垂直偏差、功率谱重心和摩擦系数特征参数能够反应粗糙表面的形貌特征变化,并且与人的主观感知评价一致,可以用来定量表征人对材料表面粗糙度、细致度和黏着度的感知. ERP曲线的P200成分峰值与接触表面的粗糙特征相关,粗糙度大的表面诱发的P200峰值高;P300成分与人的主观认知判断有关,粗糙感强、细致感差及黏着感低的表面诱发的P300峰值高且潜伏期短.研究表明,材料表面的粗糙特性通过影响皮肤的接触摩擦行为,进而影响人脑的触觉感知和主观评价.表面摩擦振动特性、人脑电生理反应和触感主观评价具有相关性,三者结合是系统研究粗糙表面摩擦触觉感知的有效手段. 相似文献
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利用溶胶-凝胶生物活性材料粉末二次烧结工艺,制备了CaO-P2O5-SiO2系统溶胶-凝胶生物活性多孔材料,并利用体外实验(in vitro)方法和XRD,SEM及FTIR技术研究了此烧结材料的显微形貌、晶相、生物活性和可降解性能.结果表明,经800℃烧结5 min后,有少量硅磷酸钙[Ca5(PO4)2SiO4,5CPS]析出,在模拟体液(SBF)中浸泡,随着时间的增长,材料表面最初形成的无定形钙磷化合物矿化成碳酸羟基磷灰石(HCA)纳米团簇,并逐渐相互融合形成HCA覆盖层;HCA只在烧结体的玻璃相(SG相)表面生成,在5CPS微晶相表面未发现HCA,该材料在37℃恒温的SBF溶液中具有较高的生物活性和可降解性能. 相似文献
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The title compound 12-(2,4-dichlorophenyl)-7,8,9,10,11,12-hexahydrobenzo-[f]pyrimido[4,5-b]quinoline-9,11-dione DMF solvate 1(C24H20Cl2N4O3,Mr=483.34) was synthesized and crystallized.The crystal belongs to the monoclinic system,space group P21/n with a=6.4798(16),b=20.595(5),c=16.723(4),β=95.267(7)o,Z=4,V=2222.3(9)3,Dc=1.445 g/cm3,μ(MoKα)=0.328 mm-1,F(000)=1000,the final R=0.0530 and wR=0.1388 for 3484 observed reflections(I2σ(I)).X-ray analysis reveals that the central 1,4-dihydropyridine ring is slightly distorted,adopting a half-chair conformation,which is obviously different from the boat conformations of other similar compounds.In addition,the classical hydrogen bonds of N(2)-H(2A)…O(2) are presented in the crystals,and link the adjacent molecules to form dimmers.Atom O(3) in the DMF solvent forms two hydrogen bonds of O(3)…H(1H)-N(1) and O(3)…H(3H)-N(3) with a pyrimidoquinoline moiety,forming an interesting half-chair-like conformation.The hydrogen bonds link the molecules to form dimmers,while intermolecular π-π interaction connects the above-mentioned dimmers to yield a one-dimensional structure. 相似文献