螺旋轧制对09Mn2Si管钢组织和力学性能的影响

I. Vlasov, N. Surikova, I. Mishin, S. Panin, A. Smirnova, A. Yakovlev, R. Stankevich
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摘要

研究了螺旋轧制对09Mn2Si管钢组织和力学性能的影响。通过透射电镜观察发现,螺旋轧制使铁素体晶粒细化,珠光体相内渗碳体板断裂。这在由轧制产生的应变程度达到最大值的表层尤其明显。显微硬度测量证实,在轧制过程中,在棒材的横截面上产生了梯度硬化模式。结果表明,显微硬度增加最明显的是在深度达3mm处。在静张力试验下估计了处理钢的力学性能。结果表明,螺旋轧制使09Mn2Si钢的流变应力(屈服平台处)和比例极限增大,而相对伸长率降低。同时,尽管螺旋轧制引起了强化,但钢内部仍发生了应变硬化。后者表现为加载图上的抛物线硬化,颈状形成后流变应力逐渐减小。研究了螺旋轧制对09Mn2Si管钢组织和力学性能的影响。通过透射电镜观察发现,螺旋轧制使铁素体晶粒细化,珠光体相内渗碳体板断裂。这在由轧制产生的应变程度达到最大值的表层尤其明显。显微硬度测量证实,在轧制过程中,在棒材的横截面上产生了梯度硬化模式。结果表明,显微硬度增加最明显的是在深度达3mm处。在静张力试验下估计了处理钢的力学性能。结果表明,螺旋轧制使09Mn2Si钢的流变应力(屈服平台处)和比例极限增大,而相对伸长率降低。同时,尽管……
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Modification of structure and mechanical properties of 09Mn2Si pipe steel by helical rolling
Studies on the impact of helical rolling on the structure and mechanical properties of 09Mn2Si pipe steel have been carried out. With the use of transmission electron microscopy it was revealed that the helical rolling gives rise to refinement of ferrite grains as well as fracture of cementite plates within the pearlite phase. This is particularly evident in the surface layer where the degree of strain resulting from the rolling achieved the maximum value. Microhardness measurements have confirmed gradient hardening pattern over the cross section of a rod being induced during the rolling. It is concluded that the most manifested increase of the microhardness takes place at the depth of up to 3 mm. Mechanical properties of the treated steel was estimated under static tension tests. It is shown that helical rolling of 09Mn2Si steel gives rise to increasing of the flow stress (at the yield plateau) and the proportionality limit, while the value of relative elongation has decreased. At the same time, despite of the strengthening induced by the helical rolling the strain hardening takes place in the steel. The latter is manifested through the parabolic hardening at the loading diagram followed by a gradual decrease in the flow stress after the neck formation.Studies on the impact of helical rolling on the structure and mechanical properties of 09Mn2Si pipe steel have been carried out. With the use of transmission electron microscopy it was revealed that the helical rolling gives rise to refinement of ferrite grains as well as fracture of cementite plates within the pearlite phase. This is particularly evident in the surface layer where the degree of strain resulting from the rolling achieved the maximum value. Microhardness measurements have confirmed gradient hardening pattern over the cross section of a rod being induced during the rolling. It is concluded that the most manifested increase of the microhardness takes place at the depth of up to 3 mm. Mechanical properties of the treated steel was estimated under static tension tests. It is shown that helical rolling of 09Mn2Si steel gives rise to increasing of the flow stress (at the yield plateau) and the proportionality limit, while the value of relative elongation has decreased. At the same time, despite ...
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