摘要
分别用20钢和2036铝合金作为固相材料,用Al-13Si铝合金作为液相材料,探讨了在加热过程中,不同形态的固液界面对传热过程的影响。结果表明,在液相合金的固相层形成之前,固液界面的传热效果主要取决于固相材料传热特性;固液界面的接触情况对界面传热的效果产生较大的影响;在液相合金的固相层形成之后,固液界面的传热效果主要取决于液相合金固相层的生长过程所释放出来的结晶潜热;当固相合金发生界面熔化时,界面的熔化速度及结晶潜热将对固相的温度产生影响。
Influences of the morphology of solid-liquid interface during the heating process were analyzed with the 20 steel and 2036 aluminum alloy as solid material and with the Al-13 Si aluminum alloy as liquid material.The experimental results show that before the solid layer of liquid alloy is solidified,the interfacial heating transferring is dependent on the characteristics of solid material.In addition,the contacted condition of solid-liquid interface plays a positive role in interfacial heating transferring effects.After the solid phase layer is solidified,the heating effect is dependent on the latent heat during solid phase layer growth.When the interface of the solid phase was melted,the melting speed of interface and latent heating exhibits a observedly role on temperature of the solid phase.
出处
《特种铸造及有色合金》
CAS
CSCD
北大核心
2015年第3期225-228,共4页
Special Casting & Nonferrous Alloys
基金
江西省教育厅科技攻关资助项目(GJJ10365)
关键词
半固态
固液界面
热传导
Semi-Solid
Solid-Liquid Interface
Heating Transferring Process
