Comparison of die geometry for cold drawing of multi-rifled steel tubes

Comparison of die geometry for cold drawing of multi-rifled steel tubes

Multi-rifled tubes, i.e. tubes with multiple inner grooving are used in heat exchangers and boilers, providing favourable heat transfer conditions due to turbulent flow of cooling medium. Therefore, strict requirements are placed on the geometry of inner rifling. In production of such tubes, cold dr...

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Bibliographic Details
Main Authors: P. Bella, P. Bucek, M. Ridzon, M. Mojzis, L. Parilak
Format: Article
Language:English
Published: Croatian Metallurgical Society 2019-01-01
Series:Metalurgija
Subjects:
steel tubes
cold drawing
die geometry
FEM
numerical simulation
Online Access:http://hrcak.srce.hr/file/318856
id doaj-e7078b32a99e4888b04d2bdb9f405315
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spelling doaj-e7078b32a99e4888b04d2bdb9f4053152020-11-25T00:34:19ZengCroatian Metallurgical SocietyMetalurgija0543-58461334-25762019-01-01583-4323325Comparison of die geometry for cold drawing of multi-rifled steel tubes P. Bella0P. Bucek1M. Ridzon2M. Mojzis3L. Parilak4ZP VVC s.r.o., Podbrezova, SlovakiaZP VVC s.r.o., Podbrezova, SlovakiaZP VVC s.r.o., Podbrezova, SlovakiaZP VVC s.r.o., Podbrezova, SlovakiaZP VVC s.r.o., Podbrezova, Slovakia; TU Kosice, Faculty of Manufacturing Technologies in Presov, SlovakiaMulti-rifled tubes, i.e. tubes with multiple inner grooving are used in heat exchangers and boilers, providing favourable heat transfer conditions due to turbulent flow of cooling medium. Therefore, strict requirements are placed on the geometry of inner rifling. In production of such tubes, cold drawing with free-to-rotate rifled plug is the final drawing operation to achieve required dimensions. A Finite Element Method (FEM) based numerical model of the process was prepared in order to optimize the geometry of the die. The results of numerical simulations for two different die geometries show the difference in material flow and corresponding drawing force. The final dimensions of the tubes after drawing were compared with the customer`s requirements and a good agreement was found.http://hrcak.srce.hr/file/318856steel tubescold drawingdie geometryFEMnumerical simulation
collection DOAJ
language English
format Article
sources DOAJ
author P. Bella
P. Bucek
M. Ridzon
M. Mojzis
L. Parilak
spellingShingle P. Bella
P. Bucek
M. Ridzon
M. Mojzis
L. Parilak
Comparison of die geometry for cold drawing of multi-rifled steel tubes
Metalurgija
steel tubes
cold drawing
die geometry
FEM
numerical simulation
author_facet P. Bella
P. Bucek
M. Ridzon
M. Mojzis
L. Parilak
author_sort P. Bella
title Comparison of die geometry for cold drawing of multi-rifled steel tubes
title_short Comparison of die geometry for cold drawing of multi-rifled steel tubes
title_full Comparison of die geometry for cold drawing of multi-rifled steel tubes
title_fullStr Comparison of die geometry for cold drawing of multi-rifled steel tubes
title_full_unstemmed Comparison of die geometry for cold drawing of multi-rifled steel tubes
title_sort comparison of die geometry for cold drawing of multi-rifled steel tubes
publisher Croatian Metallurgical Society
series Metalurgija
issn 0543-5846
1334-2576
publishDate 2019-01-01
description Multi-rifled tubes, i.e. tubes with multiple inner grooving are used in heat exchangers and boilers, providing favourable heat transfer conditions due to turbulent flow of cooling medium. Therefore, strict requirements are placed on the geometry of inner rifling. In production of such tubes, cold drawing with free-to-rotate rifled plug is the final drawing operation to achieve required dimensions. A Finite Element Method (FEM) based numerical model of the process was prepared in order to optimize the geometry of the die. The results of numerical simulations for two different die geometries show the difference in material flow and corresponding drawing force. The final dimensions of the tubes after drawing were compared with the customer`s requirements and a good agreement was found.
topic steel tubes
cold drawing
die geometry
FEM
numerical simulation
url http://hrcak.srce.hr/file/318856
work_keys_str_mv AT pbella comparisonofdiegeometryforcolddrawingofmultirifledsteeltubes
AT pbucek comparisonofdiegeometryforcolddrawingofmultirifledsteeltubes
AT mridzon comparisonofdiegeometryforcolddrawingofmultirifledsteeltubes
AT mmojzis comparisonofdiegeometryforcolddrawingofmultirifledsteeltubes
AT lparilak comparisonofdiegeometryforcolddrawingofmultirifledsteeltubes
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