铸造
鑄造
주조
FOUNDRY
2010年
4期
408-411
,共4页
黄中月%韩严法%崔晓%王知鸷%祖方遒
黃中月%韓嚴法%崔曉%王知鷙%祖方遒
황중월%한엄법%최효%왕지지%조방주
Bi-20%Sb合金%液-液结构转变%冷却速率%单位面积晶粒数
Bi-20%Sb閤金%液-液結構轉變%冷卻速率%單位麵積晶粒數
Bi-20%Sb합금%액-액결구전변%냉각속솔%단위면적정립수
Bi-20%Sb alloy%liquid-liquid structure transition%cooling rate%grain number in unit area
前期研究发现,升温过程中Bi-20%Sb合金熔体在829~1107℃区间存在不可逆的电阻率温度异常行为.据此,分别选取700℃和900℃进行等温电阻率试验,在700℃保温电阻率随时间无变化,而在900℃保温过程中电阻率在37~54min发生了明显降低,揭示熔体结构状态发生了改变.根据这一结果进行凝固试验,发现在相同的冷却条件下经历过熔体结构转变试样的冷却速度较慢,凝固组织明显细化;两种熔体状态下的过冷度与冷却速率分别满足分段线性关系;两种熔体状态下单位面积晶粒数和冷却速率均满足良好的线性关系.凝固过冷度增加,是因为合金熔体在结构转变后原子团簇变得更加细小均匀,需要降到更低温度时才可以发生形核.冷却速度变慢,是因为热导率随着混乱度的增加而减小,经历过熔体结构转变的熔体在降温的过程中热导率减小.
前期研究髮現,升溫過程中Bi-20%Sb閤金鎔體在829~1107℃區間存在不可逆的電阻率溫度異常行為.據此,分彆選取700℃和900℃進行等溫電阻率試驗,在700℃保溫電阻率隨時間無變化,而在900℃保溫過程中電阻率在37~54min髮生瞭明顯降低,揭示鎔體結構狀態髮生瞭改變.根據這一結果進行凝固試驗,髮現在相同的冷卻條件下經歷過鎔體結構轉變試樣的冷卻速度較慢,凝固組織明顯細化;兩種鎔體狀態下的過冷度與冷卻速率分彆滿足分段線性關繫;兩種鎔體狀態下單位麵積晶粒數和冷卻速率均滿足良好的線性關繫.凝固過冷度增加,是因為閤金鎔體在結構轉變後原子糰簇變得更加細小均勻,需要降到更低溫度時纔可以髮生形覈.冷卻速度變慢,是因為熱導率隨著混亂度的增加而減小,經歷過鎔體結構轉變的鎔體在降溫的過程中熱導率減小.
전기연구발현,승온과정중Bi-20%Sb합금용체재829~1107℃구간존재불가역적전조솔온도이상행위.거차,분별선취700℃화900℃진행등온전조솔시험,재700℃보온전조솔수시간무변화,이재900℃보온과정중전조솔재37~54min발생료명현강저,게시용체결구상태발생료개변.근거저일결과진행응고시험,발현재상동적냉각조건하경력과용체결구전변시양적냉각속도교만,응고조직명현세화;량충용체상태하적과랭도여냉각속솔분별만족분단선성관계;량충용체상태하단위면적정립수화냉각속솔균만족량호적선성관계.응고과랭도증가,시인위합금용체재결구전변후원자단족변득경가세소균균,수요강도경저온도시재가이발생형핵.냉각속도변만,시인위열도솔수착혼란도적증가이감소,경력과용체결구전변적용체재강온적과정중열도솔감소.
In our prior work,an irreversible liquid-liquid structure transition(LLST) was observed in the range of 829-1107℃ in Bi-20%Sb alloy.Basing on this,the holding temperatures,700℃ and 900℃.were chosen to test the resistivity change during isothermal holding.The results show that there was no change at 700℃,while at 900℃ the resistivity decreased obviously during 37 min to 54 min,which indicated that there was a LLST in the melt.According to the results,solidification experiments were carried out.The solidification results show that the samples experienced LLST had lower cooling rate,finer structures under the same cooling conditions;undercooling and cooling rate met sectional functions;moreover,grain number in unit area and cooling rate were both in fine linear relation.Because atom clusters in the melt which experienced LLST were much smaller,the nucleation started at lower temperature and undercooling increased.Thermal conductivity decreases with the increase of confusion,so thermal conductivity of the melt which experienced LLST is reduced during cooling process,giving rise to slower cooling rate.
