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以高纯Cr17铁素体不锈钢为实验材料,对比研究了热轧不退火、退火两种工艺对其板厚方向织构演变、成形性及表面皱折的影响。采用金相显微镜、X射线衍射技术及背散射电子衍射技术观察两种工艺条件下的组织和织构演变。结果表明:成品板各层织构特征存在显著差异,这是由于低温轧制过程中沿板厚方向不同应变状态导致的热轧织构梯度遗传所致。与热轧不退火相比,热轧退火有利于成品板各层γ纤维再结晶织构增强,偏离{111}<112>组分的程度减弱,α纤维织构弱化;有利于弱化成品板的带状晶粒簇,促使晶粒簇分布均匀分散。 相似文献
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The influence of the cold rolling and annealing sequence on the ridging resistance and the crystallographic texture distribution of AISI 439 type ferritic stainless steel was studied in order to determine optimal processing conditions for surface quality improvement. In the present study, the effect of two sequences of cold rolling and annealing were analysed: a single cold rolling and annealing, and an interrupted cold rolling with an intermediate and a final anneal. In the conventional single step cold rolling, the ridging resistance was found to deteriorate with increasing cold reduction ratio. For a fixed total cold reduction ratio in the two stage cold rolling, ridging was less pronounced when a higher reduction was applied in the second step. Band‐like clusters of grains with similar crystallographic orientations were observed in the mid‐thickness of sheets with severe ridging. The results show that severe ridging is related to the presence of band‐like clusters of 〈111〉//ND oriented grains. The two stage cold rolling was found to result in less band‐like clusters and an improved surface quality. 相似文献
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通过对00Cr17Ti经热带退火、不经热带退火两种工艺的冷轧板进行对比试验,在分析显微组织、织构的基础上,研究了热带退火对00Cr17Ti薄板表面皱折的影响。研究结果表明:与不经热带退火相比,经热带退火能使成品薄板的表面皱折大大减轻,最大粗糙度仅为12.06 μm,平均粗糙度仅为1.27 μm。两种工艺的成品板表面皱折程度的不同是由两者在显微组织、微织构上的差异造成的。与不经热带退火相比,经热带退火的成品薄板在板厚方向具有较均匀的组织,板宽方向的织构梯度较小,晶粒簇较间断、细窄、分散,所有这些使得成品薄板的表面皱折大大减轻。为了满足用户对薄板表面质量的严格要求,对热轧带进行退火是很有必要的。 相似文献
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针对铁素体不锈钢拉伸后的表面起皱现象,研究了再结晶晶粒取向分布对起皱程度的影响.将厚度3mm的430铁素体不锈钢热轧退火板,经2种工艺(一次冷轧、多次冷轧)轧制和再结晶退火后得到最终厚度均为0.1mm的冷轧板,分析了再结晶晶粒取向、轴向拉伸后表面起皱程度以及二者的相关性.结果表明,{211)〈011〉和{100}〈011〉取向晶粒的存在是引起表面起皱的内因;铁素体不锈钢中各个晶粒取向均匀分布,削弱了塑性各向异性,从而抑制起皱的产生.铁素体不锈钢在拉伸变形后,相近取向的相邻晶粒表面呈现单滑移痕迹,这是形成起皱的主要原因.多次冷轧-中间退火为减轻铁素体不锈钢表面起皱提供了一种新途径. 相似文献
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通过工艺控制得到含不同-纤维织构份额的430铁素体不锈钢样品,研究了-纤维织构份额对430不锈钢表面起皱程度的影响。结果表明:将冷轧430铁素体不锈钢在略低于再结晶温度下长时间保温,然后进行高温再结晶退火处理能够获得高份额的-纤维织构;随着显微组织中-纤维织构份额的提高,430铁素体不锈钢表面抗起皱性能增强。相比于{100}<011>和{112}<110>取向晶粒,-纤维取向晶粒平均塑性应变比高,并能在再结晶组织中较少形成取向相近的晶粒簇,减轻了铁素体不锈钢的表面起皱现象。 相似文献
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The effects of the finisher entry temperatures(FETs) on the surface ridging behavior for an ultra-purified21%Cr ferritic stainless steel have been investigated. The results indicate that decreasing the FET facilitates the formation of in-grain shear bands in the hot rolled slab. The in-grain shear bands supplied recrystallization nucleation sites in grains during subsequent annealing through coalescence of subgrains, which is beneficial to refine the microstructures and intensify the {111}//ND textures. This effect will evolve to the final cold rolled and annealed sheet. The micro-texture analysis indicates that the formation of grain colony in the final sheet is weakened by decreasing the FET. Then, the surface ridging resistance of FSS is enhanced due to the optimizing of micro-texture distribution. 相似文献