兵器材料科学与工程
兵器材料科學與工程
병기재료과학여공정
Ordnance Material Science and Engineering
2013年
5期
46-47,48
,共3页
付大军%黄立国%李爽
付大軍%黃立國%李爽
부대군%황입국%리상
Al-5Fe基合金%组织%直流电场%硬度%耐磨性
Al-5Fe基閤金%組織%直流電場%硬度%耐磨性
Al-5Fe기합금%조직%직류전장%경도%내마성
Al-5Fe based alloys%microstructure%DC electric field%hardness%wear resistance
研究了不同电流强度的直流电场对Al-5Fe基合金组织和性能的影响。结果表明:在直流电场作用下,Al-5Fe基合金的凝固组织经历了细化过程,随着电流强度的增加,组织细化显著,初生富铁相的形状由粗大的针片状转变为细小的针片状、花朵状、块状,合金的硬度、耐磨性逐渐增加,其中电流强度为4A时效果最明显。
研究瞭不同電流彊度的直流電場對Al-5Fe基閤金組織和性能的影響。結果錶明:在直流電場作用下,Al-5Fe基閤金的凝固組織經歷瞭細化過程,隨著電流彊度的增加,組織細化顯著,初生富鐵相的形狀由粗大的針片狀轉變為細小的針片狀、花朵狀、塊狀,閤金的硬度、耐磨性逐漸增加,其中電流彊度為4A時效果最明顯。
연구료불동전류강도적직류전장대Al-5Fe기합금조직화성능적영향。결과표명:재직류전장작용하,Al-5Fe기합금적응고조직경력료세화과정,수착전류강도적증가,조직세화현저,초생부철상적형상유조대적침편상전변위세소적침편상、화타상、괴상,합금적경도、내마성축점증가,기중전류강도위4A시효과최명현。
The effect of DC electric field with different current intensity on the microstructure and properties of Al-5Fe based alloy was studied. Results show that the solidification structure of Al-5Fe based alloy is refined under direct current. The structure fining becomes more significant with the increase of current intensity. The shapes of primary iron rich phases change from bulky needle flake into small needle flake,flower and block. The alloy’s hardness and wear resistance increase gradually,and the most significant effect can be achieved at the current intensity of 4 A.
