Microstructural characterization of sic reinforced aluminum matrix composites

Makszimus, A.
Pieczonka, T.
Gür, Cemil Hakan
Tan, E.
Gacsi, Z.


Microstructural characterization of SiC reinforced aluminum matrix composites
Gür, Hakan C.; Gacsı, Zoltan; Tan, Evren; Yelbay, İlker H.; Karpuz, Pınar(2009)
Microstructural Characterization of Magnetic MnAl Alloys
Genç, Ayşe Merve; Acar, Özgün; Kalay, İlkay; Kalay, Yunus Eren (null; 2017-02-26)
Microstructural examination of mn alloyed fe-al based intermetallics
Akdeniz, Mahmut Vedat; Ağdaş, Fatma (Wiley-Vch, 2000-01-01)
Microstructural modelling of dual-phase steelsthrough polycrystalline plasticity at RVE level
Güngör, Gönül Öykü; Yalçınkaya, Tuncay; Department of Aerospace Engineering (2019)
In this work the plasticity, localization and the damage behavior of dual phase steels are investigated through both J2 and crystal plasticity frameworks. For this purpose, Voronoi based Representative Volume Elements (RVE) are created with different martensite volume fractions, which are studied at different constant triaxiality values. The micromechanical and the macroscopic constitutive responses are analyzed in detail for considering various loading conditions and microstructural parameters. The results...
Microstructural investigation of Cu2+ doped nanohydroxyapatites
Evis, Zafer (Informa UK Limited, 2010-05-01)
Pure and Cu2+ doped nanohydroxyapatites were synthesised by a precipitation method to investigate the effect of Cu2+ ions on the structure of hydroxyapatite (HA) and its thermal stability after the air sintering at 1100 degrees C. A small amount of CaO was observed in the Cu2+ doped HAs after the X-ray diffraction results. The addition of Cu2+ changed the hexagonal lattice parameters of the HA and resulted in smaller grain size after sintering at 1100 degrees C. The addition of Cu2+ ions into HA resulted in...
Citation Formats
A. Makszimus, T. Pieczonka, C. H. Gür, E. Tan, and Z. Gacsi, “Microstructural characterization of sic reinforced aluminum matrix composites,” 2009, vol. 3, Accessed: 00, 2021. [Online]. Available: https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84902212866&origin=inward.