稀土变质钒白口铸铁中碳化物球化机理
Mechanism of Spheroidization of Carbide in RE-Complex Modified Vanadium White Iron
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摘要: 探索了用变质方法改善钒白口铸铁中碳化物的形貌和分布。用稀土综合变质剂对钒白口铸铁进行了变质处理,使钒白口铁中方块状先共晶碳化物和条状共晶碳化物变为圆整时球状碳化物,韧性和机械性能明显提高。
研究表明,一定的钒量是碳化物获得球化的必要条件。变质过程中产生的大量的高熔点的硫化物、氮化物是VC非均质形核的基体,对VC以离异共晶方式生长起着重要作用。稀土的脱硫脱氧作用,提高了VC—熔体间的界面能,降低了VC的表面能的各向异性,使VC各个生长锥以在致相等的速度增长,从而长成球形。同时,高的界面能有利于在生长过程中球面的稳定性。
稀土综合变质剂正是综合了提供非均质形核基体与提高VC—熔体界面能、降低界面能各向异性的优点,而且前者与后者之间互相促进,因而发挥了较强的球化作用。Abstract: The effects of RE-complex modification on morphology of the carbide in-vanadium white iron was studied.After modification both the cubic-shape hyper eutectic Vc and strip-like eutectic Vc change into perfectly spheroidal carbide and the toughness and abrasion resistance of vanadium white iron is pronouncedly improved.
The experimental results showed that to get spheroidal carbide a certain minimum content of vanadium in white iron is necessary.The sulphide and nitride with higher melting point formed during modification process are the substrate of heterogeneous nucleation of Vc and this is of great importance for carbide to grow in divorced eutectic.The desulphurizing and deoxidizing effects of rare earth elements raises the VC/melt interfacial tension and at the same time decreases the difference in the interfacial tension of advancing planes of different indices.Therefore the basal planes of growth pyramids advance at about equal speed, and finally the carbide grows as a spheroid.Furthermore,the higher interfacial tension makes the spheroidal surface of VC stable during growth process.