Damping Properties of Li6La2SrBi2O12 Ceramic Particulates Reinforced Cement Composites

Wei Guo Wang; Gang Ling Hao; Xin Cheng Ren; Lei Lv

doi:10.4028/www.scientific.net/AMR.512-515.1873

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 512-515Damping Properties of Li6La2SrBi2O12 Ceramic...

Damping Properties of Li₆La₂SrBi₂O₁₂ Ceramic Particulates Reinforced Cement Composites

Abstract:

The higher damping capacity and hardness Li₆La₂SrBi₂O₁₂ceramic particles at room temperature were added into the cement to form the composite materials. The maximum damping capacity of the 25 wt% Li₆La₂SrBi₂O₁₂ceramic/cement composites is as high as 0.015 at 310 K and 9 Hz, corresponding to a vibration energy dissipation of about 10% in each vibration cycle. The flexural strength of the the 10 wt% Li₆La₂SrBi₂O₁₂ceramic/cement composite is about 50% higher than that of the pure cement sample