摘要
在ZA27合金中添加重量分数为5%Si并采用喷雾共沉积技术制备了SiC体积分数为10%的锌基复合材料。采用多功能、声频内耗仪对材料的低高频内耗行为进行了测量。结果发现,较之常规铸造ZA27合金,在测试温度、频率范围内,材料的阻尼能力均有较大幅度的提高;挤压后材料的阻尼能力进一步提高。在材料微观组织形貌分析的基础上。
The effect of SiC particulate on the resultant damping behavior of the asspray deposited high silicon alloy ZA27 was investigated in an effort to develop a high damping materials. The high and low frequency internal friction behavior was conducted on Sound Frequency and Multifunctional Internal Friction Apparatus. The experimental results show that the damping capacities of the MMCs reinforced by SiC particulate were improved a lot, and furthermore, hot extrusion improved the damping capacities. Finally, the operative damping mechanisms were discussed in the light of the data obtained from characterization of microstructure based on the theory of Schoeck.
出处
《复合材料学报》
EI
CAS
CSCD
北大核心
1999年第3期62-66,共5页
Acta Materiae Compositae Sinica
基金
国家自然科学基金
中科院内耗与超声衰减开放实验室开放基金
关键词
喷雾共沉积
锌基合金
复合材料
内耗
碳化硅
spray codeposition, zincbased alloy, composites, internal friction
