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真空感应重熔GH3625合金纯净化研究
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作者单位:

兰州理工大学省部共建有色金属先进加工与再利用国家重点实验室,兰州理工大学省部共建有色金属先进加工与再利用国家重点实验室

中图分类号:

TF 133+.2

基金项目:

甘肃省重大科技专项资助项目(145RTSA004)


Investigation of Purification in Alloy GH3625 throughVacuum Induction Remelting
Author:
Affiliation:

State Key Laboratory of Adwanced Processing and Recyling of Nonferrous Metals,Lanzhou University of Technology,State Key Laboratory of Adwanced Processing and Recyling of Nonferrous Metals,Lanzhou University of Technology

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    摘要:

    为进一步降低GH3625母合金中的氧、氮、硫含量,分别进行了高真空不加钙和高真空向合金熔体加钙两种工艺条件下的真空感应重熔实验,研究了高真空感应重熔精炼对合金成分和去除杂质元素氧、氮、硫的作用。结果表明:高真空感应重熔元素挥发烧损和富化均控制在标准成分范围;单纯高真空感应重熔时,合金中的氧通过C-O反应脱除,可脱氧至10ppm,氮分压降低使氮含量脱至70ppm,但在去硫方面无明显作用;高真空加0.5%钙作净化剂重熔时,Ca-O反应以及Ca与Al2O3坩埚内壁反应,可实现深度脱氧,通过Ca-S反应使合金中硫含量显著降低,然而氮含量降低程度有限,其含量远高于氮在GH3625合金中的溶解度。采用Al2O3坩埚,选择高真空熔炼工艺及适量钙的加入,可使氧、氮、硫含量分别降低到6、60、9ppm。

    Abstract:

    For further reduction of oxygen, nitrogen and sulphur contents in master alloy GH3625, two vacuum induction remelting experiments (high vacuum without calcium and high vacuum with addition calcium) were carried out. Alloy composition and purity were investigated. The results show that: under high vacuum induction remelting burning loss and enrichment of alloying elements are all in the range of standard composition; deoxidation is excellent under high vacuum induction remelting, O content is reduced from 17ppm to 10ppm by C-O reaction; but removal of nitrogen and sulphur is not obvious; High vacuum induction remelting with addition Ca using Al2O3 Ca-O and Ca-Al2O3 (the inner wall of crucible) reaction is helpful to deep deoxidation, Ca-S reaction makes S content is greatly reduced, reducing nitrogen content is limited, it is far higher than N solubility in alloy GH3625. In Al2O3 crucible, adopting high vacuum melting technology and proper calcium addition amounts, oxygen, nitrogen and sulphur content could be reduced to 6ppm,60ppm and 9ppm respectively.

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丁雨田,王 伟.真空感应重熔GH3625合金纯净化研究[J].稀有金属材料与工程,2018,47(2):687~691.[Ding Yutian, Wang Wei. Investigation of Purification in Alloy GH3625 throughVacuum Induction Remelting[J]. Rare Metal Materials and Engineering,2018,47(2):687~691.]
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  • 收稿日期:2015-12-24
  • 最后修改日期:2016-03-17
  • 录用日期:2016-03-29
  • 在线发布日期: 2018-03-15