在128°Y切割X传播方向上的L iN bO3基片上设计并研制了S型声表面波器件。它将输入IDT激发的声表面波中心对称分成两路并由各自的输出IDT检测输出。应用P矩阵法分析了其中一输出IDT检测输出的1次时延信号、3次和5次渡越反射信号与输...在128°Y切割X传播方向上的L iN bO3基片上设计并研制了S型声表面波器件。它将输入IDT激发的声表面波中心对称分成两路并由各自的输出IDT检测输出。应用P矩阵法分析了其中一输出IDT检测输出的1次时延信号、3次和5次渡越反射信号与输入IDT所加的电信号之间的关系式,并与“一”字型器件的3次渡越反射信号进行对比。结果表明,S型声表面波器件能有效地降低3次和5次渡越反射信号。展开更多
在1280旋转Y切割X传播方向上的L iN bO3基片上设计并研制了Y型声表面波器件。它将输入IDT激发的声表面波轴对称分成两路并由各自的输出IDT检测输出。应用P矩阵法分析了其中一输出IDT检测输出的一次时延信号、三次渡越反射信号和五次渡...在1280旋转Y切割X传播方向上的L iN bO3基片上设计并研制了Y型声表面波器件。它将输入IDT激发的声表面波轴对称分成两路并由各自的输出IDT检测输出。应用P矩阵法分析了其中一输出IDT检测输出的一次时延信号、三次渡越反射信号和五次渡越反射信号与输入IDT所加的电信号之间的关系式,并应用网络分析仪测量Y型声表面波器件幅度特性,结果表明,理论分析与实验结果基本相符。展开更多
PU (polyurethane) integral skin and PVC (polyvinyl chloride) are polymeric materials which have favorable physical characteristics to reduce the impact noise when applied to floor systems. In civil construction, f...PU (polyurethane) integral skin and PVC (polyvinyl chloride) are polymeric materials which have favorable physical characteristics to reduce the impact noise when applied to floor systems. In civil construction, floating floors systems are composed of two layers above the slab: a resilient layer and, above this, a rigid layer of cement matrix that works as a subfloor. This research aims to evaluate the incorporation of PVC and PU skin waste in the resilient layer of the floating floor, for impact noise insulation. It was conducted physical, mechanical and morphological tests in the composite, as SEM (scanning electron microscopy), determination of compressive creep, and impact noise test to evaluate the absorption capacity of the floor system over time. Furthermore, experimental results were compared with theoretical studies. These correlations may assist in understanding the behavior of impact noise damping and its relation to the size of the samples.展开更多
文摘在128°Y切割X传播方向上的L iN bO3基片上设计并研制了S型声表面波器件。它将输入IDT激发的声表面波中心对称分成两路并由各自的输出IDT检测输出。应用P矩阵法分析了其中一输出IDT检测输出的1次时延信号、3次和5次渡越反射信号与输入IDT所加的电信号之间的关系式,并与“一”字型器件的3次渡越反射信号进行对比。结果表明,S型声表面波器件能有效地降低3次和5次渡越反射信号。
文摘在1280旋转Y切割X传播方向上的L iN bO3基片上设计并研制了Y型声表面波器件。它将输入IDT激发的声表面波轴对称分成两路并由各自的输出IDT检测输出。应用P矩阵法分析了其中一输出IDT检测输出的一次时延信号、三次渡越反射信号和五次渡越反射信号与输入IDT所加的电信号之间的关系式,并应用网络分析仪测量Y型声表面波器件幅度特性,结果表明,理论分析与实验结果基本相符。
文摘PU (polyurethane) integral skin and PVC (polyvinyl chloride) are polymeric materials which have favorable physical characteristics to reduce the impact noise when applied to floor systems. In civil construction, floating floors systems are composed of two layers above the slab: a resilient layer and, above this, a rigid layer of cement matrix that works as a subfloor. This research aims to evaluate the incorporation of PVC and PU skin waste in the resilient layer of the floating floor, for impact noise insulation. It was conducted physical, mechanical and morphological tests in the composite, as SEM (scanning electron microscopy), determination of compressive creep, and impact noise test to evaluate the absorption capacity of the floor system over time. Furthermore, experimental results were compared with theoretical studies. These correlations may assist in understanding the behavior of impact noise damping and its relation to the size of the samples.
