摘要
在所设计的高碳Fe-Cr-Ni合金中,添加0.20~0.40%的氮,可以固溶强化合金基体,延迟晶粒粗化,抑制碳化物沿晶界过量析出与长大,改善碳化物形貌与分布以及碳化物与晶粒基体间的结合,强化合金的晶粒与晶界,从而提高合金的高温强度。氮含量不超过0.45%时,对合金的工艺性无不良影响。
The additions to 0. 20~0. 40 %N to the Fe-Cr-Ni high-temperature alloy had the effect of solution strengthening on the matrix, put off coarsing of grains, suppressed the precipitation of carbides and its growth excessively along grain boundaries, improved carbide morphology and distribution and its conjunction with matrix, strengthened alloy grains and the grain-boundaries, thus increasing high-temperature strength of Fe-Cr-Ni alloy. The nitrogen at levels up to 0. 45% had no any of harmful effect on technological
出处
《铸造》
CAS
CSCD
北大核心
1995年第9期20-22,共3页
Foundry
