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    <ns1:identifier>o:672</ns1:identifier>
    <ns1:title language="sr">Uticaj elektromagnetnog polja tokom livenja na karakteristike odlivaka aluminijumskih legura</ns1:title>
    <ns1:language>sr</ns1:language>
    <ns1:description language="en">Electromagnetic casting (EMC) is the technology developed as by combining the magnetic hydrodynamics and casting technique. Electromagnetic forces, arising from the interaction of Eddy currents induced in the metal by inductor magnetic field, cause  an increased flow of  the  fluid,  forced  convection,  more  uniform  temperature  field  and  weak  gravitation influence thus changing the conditions of solidification. The advantage of EMC reflects in 
obtaining  a  better  quality  of  ingots  compared  to  convent ional  continuous  casting  process. 
Namely,  the  structure  obtained  is  finer  and  more  uniform  through  the  cross  section,  with reduced  segregation  of  alloy  element  and  porosity.  Apart  from  that,  due  to  the  reduced contact  pressure  (result  of  electromagnetic  field  effect)  between  the  mould  and  the  metal, 
the quality of ingot surface is improved, having no need for additional machine processing. The  investigations  conducted  in  the  world  were   aimed  to  investigate  the  effect  of electromagnetic,  magnetic  and  hydrodynamic  phenomena  on  Al  ingots,  but  very  little 
attention was given to the characterization of microstructure and mechanical properties. 
This work, should contribute to better knowledge of the  effect of electromagnetic field on the obtained microstructure (morphology, size, volume fraction and distribution of phases) and properties of Al alloys. The chosen alloy was EN AW  7075 heat treatable, intended for  forge  with  wide  industry  use.  It  is  characterized  by  a  number  of  defects  that  occur  during  the  solidific ation  process:  porosity,  hot  cracks,  non
-uniformal  grain  size  and  crystal  segregation.  Since  the  quality  of  final  product  is  directly  affected  by  these  defects  it  is  necessary  to  prevent  or  reduce  their  appearance  by  the  choice  of  the  appropriate  process  and optimal parameters of casting. To compare the results of electromagnetic casting, (with different  operating  parameters),
the  process  of  vertical  continual  casting  without  the 
presence  of  low  frequency  electromagnetic  field  was  selected.
The  results  were obtained  from  microstructure  and  mechanical  examination  of  Al  alloy  7075 ingots  casted  with  and  without  low-frequency  electromagnetic  field.  The  microstructure characterization  shows that it is possible to obtain finer and more homogeneous microstructure 
through the entire cross section of ingots casted with electromagnetic field, compared to ingots casted without electromagnetic   field.   As   the   consequence   of   microstructure-mechanical   properties correlation,  the  use  of  electromagnetic  field  improved  the  mechanical  properties,  as  well. 
The results obtained from SEM/EDX, DTA,electrical conductivity measurement were also shoved and compared. The chemometric approach for mechanical properties prediction and numerical  simulation  of  the  forging  process  of  EN  AW  7075  alloy  were  carried  out following the latest world trends and the obtained results can be used as a basis for further  training 
by  expanding  of  database  of  derived  models. This  doctoral  dissertation  is  the  investigation result of the project: “The development  of  casting  technologies  under  the influence  of  electromagnetic  field  and  technologies  of  hot  plastic  forming  of  7000  series aluminium alloys for special purposes” TR34002, leaded by professor Zvonko Gulišija, in the  frame  of  Technological  Development Program,  funded  by  The  Ministry  of  Education, Science and Technological Development of the Republic of Serbia, in the period from 2011 to June 2016.</ns1:description>
    <ns1:description language="sr">Elektromagnetni postupak livenja zasniva se na teoriji metalurških procesa i magnetohidrodinamici. Prilikom livenja u prisustvu elektromagnetnog polja naizmenična struja generiše vremenski promenljivo mognetno polje u istopljenoj masi što povećava indukovanu struju u rastopu. Rastop metala je pod uticajem elektromagnetne sile koja je prouzrokovana interakcijom indukovane struje i magnetnog polja. Elektromagnetna sila izaziva veći protok fluida, prinudnu
konvekciju, ravnomernije temperaturno polje i slabiji uticaj gravitacije. Na ovaj način se menjaju uslovi očvršćavanja. Dobijeni odlivci su kvalitetniji, struktura je finija i uniformnija po preseku. Zbog smanjenog kontaktnog pritiska, (što je takođe posledica delovanja elektromagnetnog polja) između kalupa i metala, kvalitet površine je poboljšan tako da nije potrebna veća dodatna mašinska obrada. U svetu postoje određena istraživanja u oblasti elektromagnetnog postupka
livenja, ali je malo pažnje posvećeno karakterizaciji mikrostrukture i mehaničkih svojstava tako dobijenih odlivaka. Ovaj rad treba da doprinese boljem poznavanju uticaja elektromagnetnog polja na dobijenu mikrostrukturu (morfologiju, veličinu zrna, raspodelu i udeo dobijenih faza) i ostale karakteristike dobijenih odlivaka.
Izabrana legura EN AW 7075 ima široku primenu u industriji, termički je obradiva i namenjena je za plastičnu preradu odnosno kovanje. Proizvodnja ove legure je dugotrajna i skupa, a prate je nedostaci tipa poroznosti, toplih pukotina i neujednačenosti u veličini zrna. Ove metalurške greške utiču na pogoršanje mehaničkih svojstava i kvaliteta dobijenih odlivaka. U cilju smanjenja ovih grešaka još u livenom stanju neophodno je primeniti odgovarajući postupak livenja
sa optimalnim radnim parametrima. Da bi se ispitao uticaj  elektromagnetnog polja prilikom livenja upoređeni su uzorci odliveni bez dejstva polja i pod dejstvom polja različite frekvencije 10, 15, 20 i 30 Hz. Rezultati ispitivanja mikrostrukture i mehaničkih svojstava pokazuju da je primenom elektromagnetnog polja moguće dobiti finiju i homogeniju mikrostrukturu, a samim tim i bolja mehanička svojstva. Dobijeni rezultati SEM/EDX, DTA analize kao i rezultati
merenja elektroprovodljivosti i određivanja hemijske segregacije su prikazani i upoređeni. Primena matematičkih modela u obradi rezultata i numerička simulacija procesa toplog kovanja su urađeni prateći svetske trendove, a njihova praktična primena ima za cilj uštedu energije, smanjenje škarta i potrošnju sirovina Dobijeni rezultati se mogu koristiti za proširenje baza podataka primenjenih modela. Ova doktorska disertacija je rezultat istraživanja u okviru projekta „Razvoj tehnoloških postupaka livenja pod uticajem elektromagnetnog
polja i tehnologija plastične prerade u toplom stanju  eetvorokomponentnih legura
Al-Zn za specijalne namene“, TR 34002, čiji je rukovodilac prof. dr Zvonko Gulišija, naučni savetnik, a koji finansira Ministarstvo prosvete, nauke i tehnološkog razvoja Republike Srbije u okviru programa tehnološkog razvoja u periodu od 01. 01.2011. – 30. 06. 2016. godine.
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