Abiadura handiko entseguak egiteko forjaketa-mailu baten garapena
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Abstract
Mailu bidezko forjaketa prozesua era askotariko propietate mekaniko altuko piezak fabrikatzeko erabiltzen da. Forjaketa prozesu hauek egoki diseinatzeko, geroz eta gehiago erabiltzen dira elementu finitu bidezko simulazio softwareak. Software hauen sarrera-datuak egokiak izatea berebizikoa da simulazioen emaitzak fidagarriak izan daitezen, horien artean materialaren portaera definitzea atal garrantzitsuenetakoa delarik. Zoritxarrez, deformazio abiadura handian materialek duten portaera mekanikoa karakterizatzeko entsegu-makina komertzial oso gutxi daude. Hutsune hori betetzeko garatu den laborategi eskalako forjaketa-mailu berri bat aurkezten da artikulu honetan. Makina berri honetan egindako entseguetako emaitzen azterketa egin da, lortutako emaitzak itxaropentsuak izanik.
Hammer forging is a widely employed manufacturing process to produce parts with excellent mechanical properties. In order to achieve an optimal process design, finite element modelling is broadly utilized in industry and research. It is well known that to obtain accurate simulation results, accurate material characterization have to be performed. Although material behaviour of metals under hammer forging conditions are of great industrial interest, few materials have been tested in such high strain rates due to the lack of laboratory machines for high-speed testing. With the objective of addressing that gap, this paper presents a novel automatic forging simulator comprised of an instrumented forging hammer capable of performing high-speed deformations. In this work, results of high strain rate tests performed on the developed hammer were evaluated obtaining promising conclusions.
Hammer forging is a widely employed manufacturing process to produce parts with excellent mechanical properties. In order to achieve an optimal process design, finite element modelling is broadly utilized in industry and research. It is well known that to obtain accurate simulation results, accurate material characterization have to be performed. Although material behaviour of metals under hammer forging conditions are of great industrial interest, few materials have been tested in such high strain rates due to the lack of laboratory machines for high-speed testing. With the objective of addressing that gap, this paper presents a novel automatic forging simulator comprised of an instrumented forging hammer capable of performing high-speed deformations. In this work, results of high strain rate tests performed on the developed hammer were evaluated obtaining promising conclusions.
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Mailu-forjaketa, abiadura handiko entseguak, materialen karakterizazioa, Hammer forging, high-speed testing, material characterization