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dc.contributor.author Osorio Ramos, Jessica J.
dc.contributor.author Refugio García, María Elizabeth
dc.contributor.author Terrés Rojas, Eduardo
dc.contributor.author MIRANDA HERNANDEZ, JOSE GUADALUPE
dc.contributor.author ROCHA RANGEL, ENRIQUE
dc.creator Osorio Ramos, Jessica J.; 239807
dc.creator Refugio García, María Elizabeth; 94317
dc.creator Terrés Rojas, Eduardo; 201952
dc.creator MIRANDA HERNANDEZ, JOSE GUADALUPE; 47542
dc.creator ROCHA RANGEL, ENRIQUE; 21235
dc.date.accessioned 2017-03-06T18:15:50Z
dc.date.available 2017-03-06T18:15:50Z
dc.date.issued 2014-06-01
dc.identifier.issn 2320-9364
dc.identifier.uri http://hdl.handle.net/20.500.11799/65165
dc.description.abstract Al2O3/Metal composite ceramics were fabricated by the use of mechanical milling and pressureless sintering. Al2O3 + 10 vol.% of La, Mn, Si or Y were mixed and milled during 12 h at 300 rpm in a horizontal mill, then with the powder mixture it was conformed cylindrical samples by uniaxial pressing using 300 MPa. Pressed samples were sintered during 2 h in an electrical furnace at 1500°C. During sintered it was used an argon atmosphere inside the furnace in order to inhibit metal oxidation. XRD results indicate that alumina and metals retain its crystalline structure. Reached density by samples is small and less than 90%. Scanning electron microscopy observations show alumina’s microstructure with very fine and homogeneous distributions of metal particles. Both the Mn and Si are not suitable metals to improve the mechanical properties of alumina, in particular the fracture toughness. Considered rare earth metals such as yttrium and lanthanum, have yielded favorable results in improving the fracture toughness of the alumina. However, it should be made more dense materials with them to better explore this potential. es
dc.language.iso eng es
dc.publisher International Journal of Research in Engineering and Science (IJRES) es
dc.relation.ispartofseries Vol.;2
dc.relation.ispartofseries No.;6
dc.rights openAccess es
dc.rights.uri http://creativecommons.org/licenses/by-nc-nd/4.0
dc.subject Fracture toughness es
dc.subject Ductile particles es
dc.subject Reinforcement es
dc.subject Alumina es
dc.subject Composites es
dc.subject.classification BIOLOGÍA Y QUÍMICA
dc.title Alumina-Based Composites Reinforced with Ductile Particles es
dc.type Artículo es
dc.provenance Científica es
dc.road Dorada es
dc.organismo Centro Universitario UAEM Valle de México es
dc.ambito Internacional es
dc.cve.CenCos 30501 es
dc.cve.progEstudios 43 es
dc.audience students es
dc.audience researchers es
dc.type.conacyt article
dc.identificator 2


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  • Título
  • Alumina-Based Composites Reinforced with Ductile Particles
  • Autor
  • Osorio Ramos, Jessica J.
  • Refugio García, María Elizabeth
  • Terrés Rojas, Eduardo
  • MIRANDA HERNANDEZ, JOSE GUADALUPE
  • ROCHA RANGEL, ENRIQUE
  • Fecha de publicación
  • 2014-06-01
  • Editor
  • International Journal of Research in Engineering and Science (IJRES)
  • Tipo de documento
  • Artículo
  • Palabras clave
  • Fracture toughness
  • Ductile particles
  • Reinforcement
  • Alumina
  • Composites
  • Los documentos depositados en el Repositorio Institucional de la Universidad Autónoma del Estado de México se encuentran a disposición en Acceso Abierto bajo la licencia Creative Commons: Atribución-NoComercial-SinDerivar 4.0 Internacional (CC BY-NC-ND 4.0)

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