摘要
针对铁磁合金阻尼性能实验中出现的“瑞利现象”和“左移现象”[4~ 8] ,对溶质原子局部内应力源模型 [1] 作了改进 ,提出了位错与溶质原子交互作用局部内应力源模型 ,并通过测定Fe- Cr- Al和 Fe- Cr- Al- Si合金的矫顽力及晶格参数对合金的局部内应力进行了讨论 .结果指出 :只有施行充分的再结晶退火以充分降低合金的内应力 ,才能使铁磁合金的阻尼性能得到充分发挥 ;在不降低磁畴壁能密度 [14 ]的前提下 。
In order to elucidate the Raleigh and Left Shift phenomena encountered in the investigations into damping capacity ( internal friction ) of ferromagnetic alloys , the solute atom model for the local internal stress source is modified and replaced by the dislocation solute interaction model proposed by the authors. The coercive force as well as crystal lattice parameter of Fe Cr Al and Fe Cr Al Si alloys was measured and the local internal stress of these alloys discussed. It is pointed out that only when the alloy is fully recrystallized could the potential of damping capacity be fully developed, and at the pre requisite of which do not lower the energy density of domain walls , to choose those alloying element that distort crystal lattice slightly is benefit to improving the damping capacity of ferromagnetic alloys.
出处
《山东工程学院学报》
CAS
2002年第4期41-45,共5页
Journal of Shandong Institute of Technology
关键词
铁磁合金
阻尼性能
局部内应力
位错
溶质原子
交互作用
damping capacity
internal friction
local internal stress
dislocation solute interaction
