中国有色金属学报
中國有色金屬學報
중국유색금속학보
THE CHINESE JOURNAL OF NONFERROUS METALS
2013年
12期
3289-3293
,共5页
李亚庚%毛卫民%朱文志%杨斌%朱达平
李亞庚%毛衛民%硃文誌%楊斌%硃達平
리아경%모위민%주문지%양빈%주체평
7075铝合金%半固态%连续冷却%表观黏度
7075鋁閤金%半固態%連續冷卻%錶觀黏度
7075려합금%반고태%련속냉각%표관점도
7075 aluminum alloy%semi-solid%continuously cooling%apparent viscosity
通过差示扫描量热法确定半固态7075铝合金温度与固相分数的关系,采用Couette型同轴双筒流变仪研究连续冷却状态下半固态7075铝合金浆料的表观黏度及其影响因素。结果表明:在连续冷却条件下,当剪切速率(γ?)不变时,冷却速率(v)越大,半固态7075铝合金浆料的表观黏度(ηa )越大;当冷却速率一定时,剪切速率越大,相同温度时半固态7075铝合金浆料的表观黏度越小。对半固态7075铝合金浆料的表观黏度与冷却速率、剪切速率及固相分数(f s )的关系进行数值拟合,为半固态7075铝合金成形的计算机模拟提供了依据:当剪切速率=61.235 s-1时,ηa =(0.21+0.18v)exp(3.99 fs);当冷却速率v=4℃/min时,ηa =2.23exp(3.87γ?)exp(-0.01fs)。γ?
通過差示掃描量熱法確定半固態7075鋁閤金溫度與固相分數的關繫,採用Couette型同軸雙筒流變儀研究連續冷卻狀態下半固態7075鋁閤金漿料的錶觀黏度及其影響因素。結果錶明:在連續冷卻條件下,噹剪切速率(γ?)不變時,冷卻速率(v)越大,半固態7075鋁閤金漿料的錶觀黏度(ηa )越大;噹冷卻速率一定時,剪切速率越大,相同溫度時半固態7075鋁閤金漿料的錶觀黏度越小。對半固態7075鋁閤金漿料的錶觀黏度與冷卻速率、剪切速率及固相分數(f s )的關繫進行數值擬閤,為半固態7075鋁閤金成形的計算機模擬提供瞭依據:噹剪切速率=61.235 s-1時,ηa =(0.21+0.18v)exp(3.99 fs);噹冷卻速率v=4℃/min時,ηa =2.23exp(3.87γ?)exp(-0.01fs)。γ?
통과차시소묘량열법학정반고태7075려합금온도여고상분수적관계,채용Couette형동축쌍통류변의연구련속냉각상태하반고태7075려합금장료적표관점도급기영향인소。결과표명:재련속냉각조건하,당전절속솔(γ?)불변시,냉각속솔(v)월대,반고태7075려합금장료적표관점도(ηa )월대;당냉각속솔일정시,전절속솔월대,상동온도시반고태7075려합금장료적표관점도월소。대반고태7075려합금장료적표관점도여냉각속솔、전절속솔급고상분수(f s )적관계진행수치의합,위반고태7075려합금성형적계산궤모의제공료의거:당전절속솔=61.235 s-1시,ηa =(0.21+0.18v)exp(3.99 fs);당냉각속솔v=4℃/min시,ηa =2.23exp(3.87γ?)exp(-0.01fs)。γ?
The apparent viscosity and its affecting factors of the semi-solid slurry of 7075 alloy were studied through a Couette-type viscometer during continuously cooling process. The differential scanning calorimetry (DSC) was performed to examine the solid fraction at different temperature. The results show that the apparent viscosity (ηaγ?) of the slurry increases with the increase of cooling rate (v) when shearing rate ( ) is identical, while it decreases with the increase of shearing rate when cooling rate is identical. The empirical equation that shows the effect of cooling rate, solid fraction (f s γ?) and shear rate on the apparent viscosity is fitted as follows: at =61.235 s-1ηa =(0.21+0.18v)exp(3.99 fs);at v=4℃/min, ηa =2.23exp(3.87γ?)exp(-0.01fs). It provides a model for the simulation of semi-solid 7075 aluminum processing.