Influence of Vanadium on Microstrain Partitioning and Evolution of Microstructural Damage in DP1300 Steel

AMI: Acta Materialia Pub Date : 2018-10-30 DOI:10.2139/ssrn.3275443

Linfeng zhou, Javad Samei, Jidong Kang, D. Wilkinson

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引用次数: 1

Abstract

We have investigated the effect of vanadium addition on a DP1300 ferrite-martensite steel, particularly in terms of microstructure, deformation, and damage behavior at the microscopic level. DP steels with and without vanadium addition were given slightly altered heat treatments to produce similar martensite content and ultimate tensile strength in both steels. The addition of 0.14wt% vanadium to the reference alloy yields a dispersion of nano-scale vanadium carbonitrides throughout the microstructure along with a pronounced grain refinement. Microscopic digital image correlation (μDIC) was employed to analyze the local strain partitioning between ferrite and martensite at the grain level. It was found that the addition of V increases the mechanical compatibility between ferrite and martensite. The consequent enhanced mechanical homogeneity and reduced strain gradients at the ferrite-martensite interface suppresses damage, thus enhancing ductility of the V-added alloy. Interrupted tensile tests coupled with X-ray computed tomography confirm that microstructural damage growth is slower in the V-added steel during post-uniform elongation prior to fracture.

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钒对DP1300钢微应变分配及显微组织损伤演变的影响

我们研究了添加钒对DP1300铁素体-马氏体钢的影响，特别是在微观结构、变形和损伤行为方面。加钒和不加钒的DP钢的热处理略有改变，使两种钢的马氏体含量和极限抗拉强度相似。在基准合金中添加0.14wt%的钒，在整个组织中产生纳米级钒碳氮化物的分散，同时晶粒细化。采用显微数字图像相关(μDIC)分析了铁素体和马氏体在晶粒水平上的局部应变分配。结果表明，V的加入提高了铁素体与马氏体的力学相容性。加入v后合金的力学均匀性增强，铁素体-马氏体界面应变梯度减小，从而抑制损伤，提高了合金的塑性。中断拉伸试验与x射线计算机断层扫描相结合证实，在断裂前均匀延伸后，添加v的钢的显微组织损伤增长较慢。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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AMI: Acta Materialia

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