Effect of Rolling Ratio and Niobium on Microstructures and Properties of V-Ti Microalloyed Non-Quenched-Tempered Steel

谭利; 肖波; 郑力宁; 陈少慧

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Effect of Rolling Ratio and Niobium on Microstructures and Properties of V-Ti Microalloyed Non-Quenched-Tempered Steel

更新时间：2026-01-21

- Effect of Rolling Ratio and Niobium on Microstructures and Properties of V-Ti Microalloyed Non-Quenched-Tempered Steel
- Special Steel Vol. 39, Issue 5, Pages: 58-61(2018)
- 作者机构：
  
  江苏沙钢集团淮钢特钢股份有限公司,淮安,223002
- 作者简介：
- 基金信息：
- DOI：
  CLC：
- Received：03 April 2018，
  
  Online First：30 May 2022，
  
  Published：30 May 2018
- 稿件说明：
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谭利, 肖波, 郑力宁, et al. Effect of Rolling Ratio and Niobium on Microstructures and Properties of V-Ti Microalloyed Non-Quenched-Tempered Steel[J]. Special Steel, 2018, 39(5): 58-61.
DOI：

谭利, 肖波, 郑力宁, et al. Effect of Rolling Ratio and Niobium on Microstructures and Properties of V-Ti Microalloyed Non-Quenched-Tempered Steel[J]. Special Steel, 2018, 39(5): 58-61. DOI：

摘要

通过金相、扫描、透射电镜研究不同轧制比工艺下V-Ti、Nb-V-Ti两种微合金化非调质钢的微观组织及机械性能。结果显示:Nb-V-Ti非调质钢轧制比大于10时

冲击韧性值可以达到50 J

而V-Ti非调质钢的轧制比却需要大于15以上

才能达到类似的冲击韧性值。从相同轧制比对比也可以发现

Nb-V-Ti非调质钢的冲击性能明显优于V-Ti非调质钢

这是因为Nb能够显著提高非调质钢的奥氏体粗化温度

有效阻止奥氏体晶粒的快速长大

细化非调质钢晶粒

降低珠光体片层间距

使渗碳体呈粒状或球状分布;另外

Nb能促进V-Ti非调质钢中细小含铌碳化物的弥散析出

细化基体组织

同时提高非调质钢的强度。因此

Nb-V-Ti复合非调质钢经过未再结晶区变形后可获得均匀细小的铁素体-珠光体组织

且在900℃未再结晶区进行大轧制比变形能够有效改善Nb-V-Ti非调质钢的强韧性。

Abstract

The microstructure and mechanical properties of V-Ti

Nb-V-Ti microalloyed non-quenched and tempered steel were investigated by optical microscopy

scanning electron microscopy

transmission electron microscopy. The results show that the impact toughness can reach 50 J when rolling ratio is greater than or equal to 10 in the Nb-V-Ti microalloyed non-quenched and tempered steel. While the similar impact toughness is achieved when the rolling ratio reach and more than 15 in V-Ti non-quenched and tempered steel. According to the same rolling ratio

it can be found that impact toughness of Nb-V-Ti microalloyed steel is better than V-Ti non quenched and tempered steel. Niobium addition could raise the coarsening temperature of austenite

effectively inhibit quick growth of austenite

and reduce the grain size and space of pearlite lamellar. The rod cemenite gradually transformed into granular of spherical cemenite. Additionally

Nb could promote the precipitation of fine-dispersed carbides in V-Ti alloyed non-quenched and tempered steel. Therefore

after non-re- crystfdlization region deformation

the Nb-V-Ti alloyed steel could obtain the fine dual phase structure with ferrite and pearlite

and the relatively 900 ℃ temperature large deformation could further improve the strength and toughness of Nb-V- Ti non-quenched and tempered steel.

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