有色金属科学与工程
有色金屬科學與工程
유색금속과학여공정
JIANGXI NONFERROUS METALS
2015年
3期
36-39
,共4页
张小平%杨斌%李明茂%陈剑明%汪航
張小平%楊斌%李明茂%陳劍明%汪航
장소평%양빈%리명무%진검명%왕항
CuCrZr%非真空熔铸%氧化烧损%覆盖剂
CuCrZr%非真空鎔鑄%氧化燒損%覆蓋劑
CuCrZr%비진공용주%양화소손%복개제
CuCrZr%non-vacuum melting%oxidation burning loss%covering materials
高强高导CuCrZr合金在非真空熔铸过程中合金元素的氧化烧损是限制其工业化连续化生产的关键因素之一.为减缓合金元素的烧损,研究脱氧剂和覆盖材料对CuCrZr合金的非真空熔铸抗烧损效果的影响.结果表明,Mg元素的添加在熔炼初期能有效减缓Zr的烧损,且温度应当低于1350℃,熔炼30 min后Zr的收得率在同一水平;当熔炼温度高于1350℃时,合金中Zr元素烧损非常严重, Mg元素的保护作用大大减弱.采用复合盐覆盖能够显著提高Zr的收得率,熔炼30 min后其收得率仍达40.86%.对合金炉渣进行XRD分析的结果表明:复合盐覆盖时,其炉渣相对木炭和氧化镁覆盖时更干净,炉渣中只含盐类.
高彊高導CuCrZr閤金在非真空鎔鑄過程中閤金元素的氧化燒損是限製其工業化連續化生產的關鍵因素之一.為減緩閤金元素的燒損,研究脫氧劑和覆蓋材料對CuCrZr閤金的非真空鎔鑄抗燒損效果的影響.結果錶明,Mg元素的添加在鎔煉初期能有效減緩Zr的燒損,且溫度應噹低于1350℃,鎔煉30 min後Zr的收得率在同一水平;噹鎔煉溫度高于1350℃時,閤金中Zr元素燒損非常嚴重, Mg元素的保護作用大大減弱.採用複閤鹽覆蓋能夠顯著提高Zr的收得率,鎔煉30 min後其收得率仍達40.86%.對閤金爐渣進行XRD分析的結果錶明:複閤鹽覆蓋時,其爐渣相對木炭和氧化鎂覆蓋時更榦淨,爐渣中隻含鹽類.
고강고도CuCrZr합금재비진공용주과정중합금원소적양화소손시한제기공업화련속화생산적관건인소지일.위감완합금원소적소손,연구탈양제화복개재료대CuCrZr합금적비진공용주항소손효과적영향.결과표명,Mg원소적첨가재용련초기능유효감완Zr적소손,차온도응당저우1350℃,용련30 min후Zr적수득솔재동일수평;당용련온도고우1350℃시,합금중Zr원소소손비상엄중, Mg원소적보호작용대대감약.채용복합염복개능구현저제고Zr적수득솔,용련30 min후기수득솔잉체40.86%.대합금로사진행XRD분석적결과표명:복합염복개시,기로사상대목탄화양화미복개시경간정,로사중지함염류.
Oxidation is one of the key factors of high strength high conductivity CuCrZr alloys melted in the non-vacuum condition which limits its industrialized continuous cast. This paper investigates the effects of anti-oxidation and coverage materials on the non-vacuum melting process in order to slow the mass loss of Zr. The results indicate that Mg addition can effectively slow the mass loss of Zr at the initial stage of melting process below 1 350 ℃. After melting for 30 min, Zr residual keeps the same level;the mass loss of Zr is very marked because the Mg protection is greatly weakened when the melting temperature reaches 1 350 ℃. Composite salt can effectively improve the residual of Zr with 40.86%of residual of Zr after melting for 30 min. The XRD patterns of slag show that no any other reactants but salts exist in the slag when covered by composite salt.