Transformation of cross cracks of continuously casted billet in rolled product

N. A. Glazunova, S. Stefanovich, V. S. Puteev
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引用次数: 1

Abstract

Increased requirements to the surface quality of hot-rolled products used in automobiles manufacturing and endeavor to decrease t rejections of the metal with surface defects, stipulate the necessity to increase the quality of the initial continuously casted billet (CCB). Cracks, formed in the process of crystallization, which are transformed into surface defects of rolled products during hot deformation are attributed to the surface defects of CCB. Classification of defects presented, reasons of cross cracks on CCB and their locations considered. In the course of the experiment the samples, cut from two CCBs in the place, where cross cracks were visually revealed after shot blasting and hot etching in the 50% solution of chloric acid. The cross cracks on the surface of a sample were revealed in the zone of the big side, and the other – on a rib. The longitudinal polished sections were cut from the place of cross cracks location. At the study of the polished sections multiple cracks were discovered. The width of cracks opening was different – from 0.01 up to 0.3 mm, depth in the section of the study – up to 10 mm. The locations of the cross cracks on the billets were marked by notches from two sides (method of “marked” defects). After that the billets were rolled at a one-stand reversible mill 850 for the diameter of 100 mm. At the visual inspection of the rolled product surface, obtained from the defect CCB, surface defects in the form of discontinuity flaws were discovered. The discontinuity flaws looked as metal ruptures of longitudinal and cross orientation and sometimes having a form of tongue. The degree of defects development depends on the depth and the crack location on the initial CCB. The defects which location corresponds to the CCB side have less opening, and defects which location corresponds to the initial billet rib looked as a rough fissure. Cross samples were cut in the places of defects locations on the surface of rolled product for metal science study. At the cross polished sections the defect cavity have several branches, the cavity walls are twisting, around the cavity branches and next to them, aggregation of small globular oxides and massive decarburization were observed. The defects of rolled products surface were classified as rolled-out cracks (cross orientation). The cracks depth in the section under study was 0.6–3.5 mm. Based on the results of the study the surface defects of rolled products were properly classified and reasons of their arising revealed, that will allow avoiding their formation in the future. Based on the proper classification and avoiding of the surface defects reasons, the rolled products rejects by surface defects will be considerably decreased.
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连铸坯在轧制产品中交叉裂纹的转变
汽车用热轧产品对表面质量的要求不断提高,为减少表面缺陷金属的废品率而努力,规定了提高初铸坯质量的必要性。在结晶过程中形成的裂纹,在热变形过程中转化为轧制产品的表面缺陷,是CCB表面缺陷的原因。提出了缺陷的分类、CCB交叉裂纹产生的原因及其位置。在实验过程中,从两个ccb上切下的样品,在50%的氯酸溶液中抛丸和热蚀刻后,在视觉上显示交叉裂纹。样品表面的交叉裂纹主要出现在大侧区域,而另一侧则出现在肋部区域。纵向抛光段从交叉裂纹位置处切割。在对抛光断面的研究中,发现了多个裂纹。裂缝开口的宽度不同——从0.01到0.3毫米,研究剖面的深度——高达10毫米。钢坯上交叉裂纹的位置由两侧的缺口标记(缺陷标记法)。之后,钢坯在一个机架可逆轧机850轧制为直径100毫米。在从缺陷CCB获得的轧制产品表面目视检查中,发现了以不连续缺陷形式存在的表面缺陷。不连续缺陷表现为纵向和横向金属断裂,有时有舌状断裂。缺陷的发展程度取决于裂纹的深度和初始裂纹的位置。在铸坯侧对应的缺陷开口较小,在初始方坯肋对应的缺陷为粗裂纹。为了进行金属科学研究,在轧件表面缺陷位置处切割交叉试样。在交叉抛光截面处,缺陷空腔有多个分支,空腔壁呈扭曲状,在空腔分支周围和旁边,观察到小球状氧化物聚集和大量脱碳。将轧制产品表面缺陷分类为滚出裂纹(横向)。研究断面的裂缝深度为0.6 ~ 3.5 mm。根据研究结果,对轧制产品的表面缺陷进行了合理的分类,揭示了缺陷产生的原因,为今后避免缺陷的产生提供了依据。通过对表面缺陷原因的合理分类和避免,可以大大减少因表面缺陷而导致的轧件次品。
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