用弹塑性材料模型预测冷弯弯曲板的残余应力

IF 1.3 4区 工程技术 Q3 ENGINEERING, CIVIL
Yue Lin, W. Shen, Lifei Song, Enqian Liu
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引用次数: 0

摘要

为了满足自动化生产的需要,对多方形冲压成形技术进行了改进,以加工复杂的曲面板。然而,改进后的成形设备最大限度地提高了加工质量,回弹和残余应力是冷弯过程中不可避免的现象。残余应力是引起疲劳裂纹和应力腐蚀裂纹的重要因素。加工过程中的残余应力会严重影响冷冲压件的疲劳寿命。因此,有必要对冷成型设备产生的残余应力进行定量和定性分析。本文通过理论推导和有限元模拟方法,对厚板冷成形过程中的残余应力分布进行了分析和比较。同时,进一步讨论了残余应力峰值随厚度和成形半径的变化规律。结果表明,两个理论模型得到的残余应力分布与数值结果吻合较好。峰值残余应力的最大误差约为10%,验证了理论公式的可靠性。1.简介航空航天、海洋结构、汽车等制造业大量使用复杂曲面钣金零件,使得复杂曲面钣金件的加工成型备受关注。在船舶建造过程中,船体板的成形和加工是智能化程度低、耗时长、严重制约造船自动化的重要组成部分。严格来说,船体板中的大部分零件都是三维曲面,其中大部分由复杂的不可展开空间曲面组成。将船舶钢板加工成复杂的三维曲面形状是一项非常困难和紧迫的关键技术。如鞍形或帆形(见图1A),以形成流线型的船体外部。多年来,具有复杂曲率的板材的弯曲一直通过手动操作进行,即热线成形和轧制弯曲相结合(见图1B)。然而,热成型工艺的生产效率相对较低,环境污染相对严重,工作条件恶劣,劳动强度高。此外,成型质量更多地取决于技术人员的经验,质量无法保证。随着自动化要求的不断提高,多点成形设备被开发并用于曲面板的冲压成形。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Prediction of Residual Stress on Cold-Formed Curvature Plates by Elastoplastic Material Model
To meet the demand of automatic production, the multisquare punch forming has been improved to process complex curved plates. However, the improved forming equipment improves the processing quality to the maximum extent, and springback and residual stresses are inevitable phenomena in the cold bending process. Residual stress is an important factor that causes fatigue crack and stress corrosion crack. And the residual stress in machining will seriously affect the fatigue life of cold-pressed parts. Therefore, it is necessary to quantitatively and qualitatively analyze the residual stress caused by the cold forming equipment. Through theoretical derivation and finite element simulation methods, the residual stress distribution for thick plates in the cold forming process was analyzed and compared in this article. Meanwhile, the variation law of residual stress peak with thickness and forming radius was further discussed. The results show that the residual stress distributions obtained by the two theoretical models are in good agreement with the numerical results. The maximum error of peak residual stress is about 10%, which verifies the reliability of theoretical formulas. 1. Introduction A large number of complex curved sheet metal parts are used in aerospace, marine structure, automobile, and other manufacturing industries, which makes the processing and forming of complex curved sheet metal parts attract much attention. In the process of ship construction, the forming and processing of hull plates is an important part of the low intelligence, time-consuming, and serious constraint on shipbuilding automation. Strictly speaking, most of the parts in the hull plate are three-dimensional curved surfaces, most of which are composed of complex undevelopable spatial curved surfaces. It is a very difficult and urgent key technology to process a ship's steel plate into complex three-dimensional curved surface shapes. such as saddle shape or sailed shape (see Fig. 1A), to create a streamlined outer body of the ship. For many years, bending of plates with complex curvatures has been carried out by manual operation, i.e., the combination of heat line forming and rolling bending (see Fig. 1B). However, the production efficiency of the thermoforming process is relatively low, and environmental pollution is relatively serious with bad working conditions and high labor intensity. Moreover, the forming quality depends more on the experience of technicians, and quality cannot be guaranteed. With the increasing demand for automation, the multipoint forming equipment was developed and used for stamping and forming of curved plates.
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来源期刊
Journal of Ship Research
Journal of Ship Research 工程技术-工程:海洋
CiteScore
2.80
自引率
0.00%
发文量
12
审稿时长
6 months
期刊介绍: Original and Timely technical papers addressing problems of shipyard techniques and production of merchant and naval ships appear in this quarterly publication. Since its inception, the Journal of Ship Production and Design (formerly the Journal of Ship Production) has been a forum for peer-reviewed, professionally edited papers from academic and industry sources. As such, it has influenced the worldwide development of ship production engineering as a fully qualified professional discipline. The expanded scope seeks papers in additional areas, specifically ship design, including design for production, plus other marine technology topics, such as ship operations, shipping economic, and safety. Each issue contains a well-rounded selection of technical papers relevant to marine professionals.
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