Monitoring the evolution of dimensional accuracy and product properties in property-controlled forming processes

IF 3.9 Q2 ENGINEERING, INDUSTRIAL
Sophie Charlotte Stebner , Juri Martschin , Bahman Arian , Stefan Dietrich , Martin Feistle , Sebastian Hütter , Rémi Lafarge , Robert Laue , Xinyang Li , Christopher Schulte , Daniel Spies , Ferdinand Thein , Frank Wendler , Malte Wrobel , Julian Rozo Vasquez , Michael Dölz , Sebastian Münstermann
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引用次数: 0

Abstract

As recent trends in manufacturing engineering disciplines show a clear development in the sustainable as well as economically efficient design of forming processes, monitoring techniques have been gaining in relevance. In terms of monitoring of product properties, most processes are currently open-loop controlled, entailing that the microstructure evolution, which determines the final product properties, is not considered. However, a closed-loop control that can adjust and manipulate the process actuators according to the required product properties of the component will lead to a considerable increase in efficiency of the processes regarding resources and will decrease postproduction of the component. For most forming processes, one set of component dimensions will result in a certain set of product properties. However, to successfully establish closed-loop property controls for the processes, a systematic understanding of the reciprocity of the dimensions after forming and final product properties must be established. This work investigates the evolution of dimensional accuracy as well as product properties for a series of forming processes that utilize different degrees of freedom for process control.

在性能控制成形过程中监测尺寸精度和产品性能的演变
随着制造工程学科的最新趋势显示出成形过程的可持续和经济高效设计的明显发展,监测技术已经获得了相关性。就产品性能的监测而言,目前大多数工艺都是开环控制的,这意味着没有考虑决定最终产品性能的微观结构演变。然而,闭环控制可以根据组件所需的产品特性调整和操纵过程执行器,这将大大提高有关资源的过程效率,并减少组件的后期制作。对于大多数成形工艺,一组零件尺寸将产生一组特定的产品性能。然而,为了成功地建立过程的闭环特性控制,必须建立对成形后尺寸和最终产品特性的相互关系的系统理解。这项工作研究了尺寸精度的演变以及产品性能的一系列成形过程,利用不同的自由度的过程控制。
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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
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