Influence of the working technology on the development of alloys H13-w(Cu) 87.5 %

Artiček, Uroš; Bojinović, Marko; Brunčko, Mihael; Anžel, Ivan

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Title:	Influence of the working technology on the development of alloys H13-w(Cu) 87.5 %
Authors:	ID Artiček, Uroš (Author) ID Bojinović, Marko (Author) ID Brunčko, Mihael (Author) ID Anžel, Ivan (Author) ID Inštitut za kovinske materiale in tehnologije (Copyright holder)
Files:	Materiali_in_Tehnologije_2014_Articek_et_al._INFLUENCE_OF_THE_WORKING_TECHNOLOGY_ON_THE_DEVELOPMENT_OF_ALLOYS_H13-w(Cu)_87.5_%.pdf (3,28 MB) MD5: DED735191E6295A6C62F68CC685F0F4E http://mit.imt.si/Revija/izvodi/mit145/articek.pdf
Language:	English
Work type:	Scientific work
Typology:	1.01 - Original Scientific Article
Organization:	FS - Faculty of Mechanical Engineering
Abstract:	Most dies in the casting industry for injection moulding are machined from the premium-grade H13 tool steel. They provide excellent performance in terms of mechanical properties and service life; however, these dies are characterised by a relatively low thermal conductivity. The tool-and-die industry is interested in depositing a material of a high thermal conductivity onto steel in order to improve the thermal management and productivity. We have explored the possibility of using copper with a new technology. In this study, the microstructure evolution and mechanical properties are discussed using the Laser Engineered Net ShapingTM (LENSTM) technology. For a better understanding of the solidification, the microstructure of a LENS sample was compared with the microstructure of a reference alloy produced with the ingot-casting technology having the same chemical composition of H13-w(Cu) 87.5 %. We carried out light microscopy, scanning electron microscopy, an EDS microchemical analysis, the tensile test and microhardness testing. The results show a successful fabrication of LENS samples; their microstructure is more homogeneous compared to the castings; they show better mechanical properties and represent a good potential for further development and use.
Keywords:	casting, laser engineered net shaping technology, microstructure, mechanical properties
Publication status:	Published
Publication version:	Version of Record
Year of publishing:	2014
Number of pages:	str. 735-742
Numbering:	Letn. 48, št. 5
PID:	20.500.12556/DKUM-65192
ISSN:	1580-2949
UDC:	621.74.043:669.018.258
ISSN on article:	1580-2949
COBISS.SI-ID:	1098922
NUK URN:	URN:SI:UM:DK:7FIC04CH
Publication date in DKUM:	16.03.2017
Views:	1964
Downloads:	135
Metadata:
Categories:	Misc.
:	ARTIČEK, Uroš, BOJINOVIĆ, Marko, BRUNČKO, Mihael and ANŽEL, Ivan, 2014, Influence of the working technology on the development of alloys H13-w(Cu) 87.5 %. Materiali in tehnologije [online]. 2014. Vol. 48, no. 5, p. 735–742. [Accessed 19 March 2025]. Retrieved from: https://dk.um.si/IzpisGradiva.php?lang=eng&id=65192 Copy citation

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Record is a part of a journal

Title:	Materiali in tehnologije
Shortened title:	Mater. tehnol.
Publisher:	Inštitut za kovinske materiale in tehnologije
ISSN:	1580-2949
COBISS.SI-ID:	106193664

Secondary language

Language:	Slovenian
Title:	Vpliv tehnologije izdelave na razvoj zlitine H13-w(Cu) 87,5 %
Abstract:	V industriji tlačnega litja se za izdelavo matric orodij pogosto uporablja visokokakovostno orodno jeklo H13, ki ima odlične mehanske lastnosti in dolgo trajnostno dobo, vendar je zanj značilna relativno nizka toplotna prevodnost. Orodjarska industrija želi dodati jeklu material z visoko toplotno prevodnostjo za dosego boljše porazdelitve toplote in večje produktivnosti. Z novo tehnologijo, imenovano Laser Engineered Net ShapingTM (LENSTM), smo raziskali možnost uporabe bakra, spremljali razvoj mikrostrukture ter ugotovili mehanske lastnosti. Za boljše razumevanje strjevanja smo primerjali mikrostrukturo vzorca LENS z mikrostrukturo referenčne zlitine z enako kemijsko sestavo H13-w(Cu) 87,5 %, izdelano s tehnologijo litja. Karakterizacija zlitin je potekala s svetlobno mikroskopijo, vrstično elektronsko mikroskopijo, mikrokemično EDS-analizo, z nateznim preizkusom in merjenjem mikrotrdote. Rezultati kažejo uspešno izdelavo vzorcev LENS, katerih mikrostruktura je bolj homogena in ima boljše mehanske lastnosti v primerjavi z odlitki. Tehnologija LENS je dober potencial za nadaljnji razvoj in uporabo v praksi.
Keywords:	tlačno litje, LENS, mikrostruktura, mehanske lastnosti

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