Fracture modes for self-fragmentation of Al-based quasicrystals contaminated by carbon

G. S. Song, S. H. Kim, M. H. Lee, W. T. Kim, D. H. Kim

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Cast ingots of quasicrystal forming composition Al62Cu26Fe12 and Al72Ni12Co16 were prepared in an inductive melting apparatus using graphite crucible in the aim of investigating the effect of carbon on the stability of the single icosahedral (i) and decagonal (d) quasicrystalline phases, respectively. Owing to this process, the contamination of carbon was expected to occur during melting by diffusion from the crucible into the quasicrystalline ingots. The detected amounts of carbon in the i- and d-phase were 0.15 mass% and 0.88 mass%, respectively. Carbon introduced by this method was first found to disintegrate spontaneously these monolithic i-AlCuFe and d-AlNiCo ingots, i.e., a detrimental effect of self-fragmentation of quasicrystals induced by carbon. Our experimental results indicated that the self-fragmentation occurring in the carbon contaminated i- and d-phases did not appear immediately after solidification, but after a certain incubation time. During the self-fragmentation process, the quasicrystalline samples with an initial size of 20 mm diameter bar ingot were disintegrated to form small fragments of about 200 μm after 50 days. Fractography was carried out to analyze fracture modes in the i- and d-phases. The fracture surfaces of the i-ph exhibited a transgranular cleavage pattern without trace of cleavage steps and river patterns, while the d-phase showed both transgranular cleavage and intergranular fracture. Such unique fracture modes in the i- and d-phases are though to arise from an internal mechanism of carbon-assisted fracture.

Original languageEnglish
Pages (from-to)1356-1363
Number of pages8
JournalMaterials Transactions
Issue number7
Publication statusPublished - 2001

All Science Journal Classification (ASJC) codes

  • General Materials Science
  • Condensed Matter Physics
  • Mechanics of Materials
  • Mechanical Engineering


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