摘要
通过制备铸态和不同定向凝固速度(V=15、25、50、75μm/s)的Mg-3Zn-Mn合金,比较铸态与定向凝固合金导热性能,并研究定向凝固速度对导热性能的影响及变化规律。结果表明,晶界作为一种面缺陷,是声子和光子的散射源,散射源越多,合金的导热性能越差。因此,铸态Mg-3Zn-Mn导热性能低于定向凝固合金。对于定向凝固合金,随着定向凝固速度的增加,合金导热性能降低。定向凝固速度V=15μm/s时,合金导热性能最好。
As-cast and directional solidified Mg-3Zn-Mn alloy at four different pulling velocities (V=15 μm/s, V=25 μm/s, V=50 μm/s, V=75 μm/s ) were prepared, and the influence of directional solidification process on the thermal conductivity, and it changing regularity were investigated. The results show that grain boundaries are as a kind of face defects, and are the scattering source of phonons and photons. As a result, the thermal conductivity of the alloy is lower with increase the grain boundaries. The thermal conductivity of as-cast Mg-3Zn-Mn alloy is lower than directional solidified Mg-3Zn-Mn alloy. In addition, the thermal conductivity of directional solidified alloy decreases with the increase of directional solidified velocity, and the best thermal conductivity of alloy is the pulling velocities V is 15μm/s.
作者
马雁翔
李秋书
王金红
韩泽坤
MA Yanxiang1, LI Qiushu1, WANG Jinhong2 , HAN Zekun2(1. Academy of Materials Science and Engineering, Taiyuan University of Science and Technology, Taiyuan 030024, China; 2. Zhiqi Railway Equipment Co., Ltd., Taiyuan 030032, Chin)
出处
《铸造技术》
CAS
2018年第3期558-561,共4页
Foundry Technology
关键词
MG合金
定向凝固
晶界
导热性能
Mg alloys
directional solidified
grain boundary
thermal conductivity
