Method for Deep Drawing Process Control Using Segmented-Multiple Active Drawbeads

Method for Deep Drawing Process Control Using Segmented-Multiple Active Drawbeads

This paper presents a new method for deep drawing process control. The new method consists in: i) using of a segmented-multiple moving drawbeads; ii) imposing an optimal reference trajectory for drawbeads position; iii) in-process control where controlled variable is chosen the amplitude of deviatio...

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Main Authors: Maier Catalina, Paunoiu Viorel, Marinescu Vasile, Epureanu Alexandru
Format: Article
Language:English
Published: EDP Sciences 2016-01-01
Series:MATEC Web of Conferences
Online Access:http://dx.doi.org/10.1051/matecconf/20168014004
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spelling doaj-a6f0fb4a6f69473fb5d7823ebc045d9e2021-03-02T10:35:14ZengEDP SciencesMATEC Web of Conferences2261-236X2016-01-01801400410.1051/matecconf/20168014004matecconf_numi2016_14004Method for Deep Drawing Process Control Using Segmented-Multiple Active DrawbeadsMaier Catalina0Paunoiu Viorel1Marinescu Vasile2Epureanu Alexandru3Dunarea de Jos University of Galati, Manufacturing Engineering DepartmentDunarea de Jos University of Galati, Manufacturing Engineering DepartmentDunarea de Jos University of Galati, Manufacturing Engineering DepartmentDunarea de Jos University of Galati, Manufacturing Engineering DepartmentThis paper presents a new method for deep drawing process control. The new method consists in: i) using of a segmented-multiple moving drawbeads; ii) imposing an optimal reference trajectory for drawbeads position; iii) in-process control where controlled variable is chosen the amplitude of deviation δ of the actual instant workpiece surface geometry with respect to the surface geometry during simulation and as manipulated variable is chosen the deviation ΔhDB of the actual drawbeads position with respect to the programmed one; iv) periodical validation, calibration and updatation both of the control model and reference trajectory of drawbeads position; v) using a reduced order model of the complex system design. An experimental device conception and testing is presented. The results obtained using this device confirms the validity of the new proposed method for deep drawing process control.http://dx.doi.org/10.1051/matecconf/20168014004
collection DOAJ
language English
format Article
sources DOAJ
author Maier Catalina
Paunoiu Viorel
Marinescu Vasile
Epureanu Alexandru
spellingShingle Maier Catalina
Paunoiu Viorel
Marinescu Vasile
Epureanu Alexandru
Method for Deep Drawing Process Control Using Segmented-Multiple Active Drawbeads
MATEC Web of Conferences
author_facet Maier Catalina
Paunoiu Viorel
Marinescu Vasile
Epureanu Alexandru
author_sort Maier Catalina
title Method for Deep Drawing Process Control Using Segmented-Multiple Active Drawbeads
title_short Method for Deep Drawing Process Control Using Segmented-Multiple Active Drawbeads
title_full Method for Deep Drawing Process Control Using Segmented-Multiple Active Drawbeads
title_fullStr Method for Deep Drawing Process Control Using Segmented-Multiple Active Drawbeads
title_full_unstemmed Method for Deep Drawing Process Control Using Segmented-Multiple Active Drawbeads
title_sort method for deep drawing process control using segmented-multiple active drawbeads
publisher EDP Sciences
series MATEC Web of Conferences
issn 2261-236X
publishDate 2016-01-01
description This paper presents a new method for deep drawing process control. The new method consists in: i) using of a segmented-multiple moving drawbeads; ii) imposing an optimal reference trajectory for drawbeads position; iii) in-process control where controlled variable is chosen the amplitude of deviation δ of the actual instant workpiece surface geometry with respect to the surface geometry during simulation and as manipulated variable is chosen the deviation ΔhDB of the actual drawbeads position with respect to the programmed one; iv) periodical validation, calibration and updatation both of the control model and reference trajectory of drawbeads position; v) using a reduced order model of the complex system design. An experimental device conception and testing is presented. The results obtained using this device confirms the validity of the new proposed method for deep drawing process control.
url http://dx.doi.org/10.1051/matecconf/20168014004
work_keys_str_mv AT maiercatalina methodfordeepdrawingprocesscontrolusingsegmentedmultipleactivedrawbeads
AT paunoiuviorel methodfordeepdrawingprocesscontrolusingsegmentedmultipleactivedrawbeads
AT marinescuvasile methodfordeepdrawingprocesscontrolusingsegmentedmultipleactivedrawbeads
AT epureanualexandru methodfordeepdrawingprocesscontrolusingsegmentedmultipleactivedrawbeads
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