Void nucleation, growth and closure in cold forging: An uncoupled modelling approach

IF 3.9 Q2 ENGINEERING, INDUSTRIAL Advances in Industrial and Manufacturing Engineering Pub Date : 2023-06-16 DOI:10.1016/j.aime.2023.100124
R. Gitschel, A. Schulze, A.E. Tekkaya
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引用次数: 0

Abstract

Forward rod extrusion experiments with high extrusions strains show a decrease of void area during forming. Most of the established damage modelling approaches have been developed without that knowledge and do not adequately cover the effect of void closure. Furthermore, many so called coupled models focus on the effect of ductile damage on the plastic flow of the material which results in more complex and numerically expensive models. But the effect of voids on plastic flow is insignificant for many cold forging applications, as shown in recent experiments. Thus, an uncoupled model is proposed that covers the effects of void nucleation, growth and closure. The proposed model is calibrated using void area fractions measured in forward rod extrusion experiments. A validation for various load paths shows good accordance with experimental data for void closure conditions under low triaxiality as well as for void evolution under higher triaxialities.

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冷锻中的空洞形核、生长和闭合:一种不耦合的建模方法
在高挤压应变下的前向棒挤压实验表明,在成形过程中空隙面积减小。大多数既定的损伤建模方法都是在没有这些知识的情况下开发的,并且没有充分涵盖孔隙闭合的影响。此外,许多所谓的耦合模型侧重于韧性损伤对材料塑性流动的影响,这导致了更复杂和数值昂贵的模型。但是,正如最近的实验所示,对于许多冷锻应用来说,孔隙对塑性流动的影响是微不足道的。因此,提出了一个非耦合模型,该模型涵盖了空穴成核、生长和闭合的影响。所提出的模型是使用在前向杆挤压实验中测量的空隙面积分数来校准的。对各种载荷路径的验证表明,低三轴度下的孔隙闭合条件以及高三轴度条件下的孔隙演化与实验数据一致。
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来源期刊
Advances in Industrial and Manufacturing Engineering
Advances in Industrial and Manufacturing Engineering Engineering-Engineering (miscellaneous)
CiteScore
6.60
自引率
0.00%
发文量
31
审稿时长
18 days
期刊最新文献
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