改进了传统稳态加热法的测试结构,设计了带隔离槽的全对称悬空薄膜测试结构,并使用有限元工具对测试结构进行了优化.测量了室温下50和80nm厚度的单晶硅薄膜的横向热导率,分别为32和38W/(m.K),其相对体硅热导率(148W/(m.K))有明显下降,...改进了传统稳态加热法的测试结构,设计了带隔离槽的全对称悬空薄膜测试结构,并使用有限元工具对测试结构进行了优化.测量了室温下50和80nm厚度的单晶硅薄膜的横向热导率,分别为32和38W/(m.K),其相对体硅热导率(148W/(m.K))有明显下降,实验结果与BTE(Boltzmann transport equation)的理论预测曲线吻合得很好.展开更多
The structure characteristics of ID precision ultrathin monocrystalline silicon section cutting machine tool spindle with force monitoring bearings functioning as force measuring sensors were detected with the new H...The structure characteristics of ID precision ultrathin monocrystalline silicon section cutting machine tool spindle with force monitoring bearings functioning as force measuring sensors were detected with the new Hilbert theory based signal wave envelope detection method, presented to replace the conventional hardware device in order to ensure that the signal is measured online with high fidelity. According to the probability of anomalous incidents in the cutting process, a mathematical recognition model has been designed and verified on an STC 22ID machine.展开更多
文摘改进了传统稳态加热法的测试结构,设计了带隔离槽的全对称悬空薄膜测试结构,并使用有限元工具对测试结构进行了优化.测量了室温下50和80nm厚度的单晶硅薄膜的横向热导率,分别为32和38W/(m.K),其相对体硅热导率(148W/(m.K))有明显下降,实验结果与BTE(Boltzmann transport equation)的理论预测曲线吻合得很好.
文摘The structure characteristics of ID precision ultrathin monocrystalline silicon section cutting machine tool spindle with force monitoring bearings functioning as force measuring sensors were detected with the new Hilbert theory based signal wave envelope detection method, presented to replace the conventional hardware device in order to ensure that the signal is measured online with high fidelity. According to the probability of anomalous incidents in the cutting process, a mathematical recognition model has been designed and verified on an STC 22ID machine.