Structrual evolution of the Ti70Ni15Al15 powders prepared by mechanical alloying

K. B. Kim; S. Yi; S. H. Kim; W. T. Kim; D. H. Kim

doi:10.1016/S0921-5093(00)01473-8

Structrual evolution of the Ti₇₀Ni₁₅Al₁₅ powders prepared by mechanical alloying

K. B. Kim, S. Yi, S. H. Kim, W. T. Kim, D. H. Kim

Department of Materials Science and Engineering

Research output: Contribution to journal › Article › peer-review

7 Citations (Scopus)

Abstract

Amorphization and crystallization behaviors of Ti₇₀Ni₁₅Al₁₅ powders during mechanical alloying (MA) and subsequent heat treatments are studied. Amorphous phase that cannot be obtained in the rapidly quenched ribbon is formed in the powders after MA for 60 h. Upon continuous heating of the amorphous powders in DSC, two exothermic events are observed. The first exothermic event corresponds to the crystallization of the amorphous matrix into a supersaturated α-Ti phase of hexagonal close-packed structure. The growth kinetic of the α-Ti phase is sluggish, resulting in the formation of nanostructured α-Ti matrix. The second exothermic event corresponds to the solid state transformation of the meta-stable α-Ti into the equilibrium phases, Ti₂Ni and Ti₃Al. Using the amorphous powders, Ti-based bulk materials with novel microstructures can be developed for structural applications.

Original language	English
Pages (from-to)	148-152
Number of pages	5
Journal	Materials Science and Engineering: A
Volume	300
Issue number	1-2
DOIs	https://doi.org/10.1016/S0921-5093(00)01473-8
Publication status	Published - 2001 Feb 28

Bibliographical note

Funding Information:
This work is supported by Creative Research Initiatives of the Korean Ministry of Science and Technology.

All Science Journal Classification (ASJC) codes

Materials Science(all)
Condensed Matter Physics
Mechanics of Materials
Mechanical Engineering

Access to Document

10.1016/S0921-5093(00)01473-8

Cite this

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title = "Structrual evolution of the Ti70Ni15Al15 powders prepared by mechanical alloying",

abstract = "Amorphization and crystallization behaviors of Ti70Ni15Al15 powders during mechanical alloying (MA) and subsequent heat treatments are studied. Amorphous phase that cannot be obtained in the rapidly quenched ribbon is formed in the powders after MA for 60 h. Upon continuous heating of the amorphous powders in DSC, two exothermic events are observed. The first exothermic event corresponds to the crystallization of the amorphous matrix into a supersaturated α-Ti phase of hexagonal close-packed structure. The growth kinetic of the α-Ti phase is sluggish, resulting in the formation of nanostructured α-Ti matrix. The second exothermic event corresponds to the solid state transformation of the meta-stable α-Ti into the equilibrium phases, Ti2Ni and Ti3Al. Using the amorphous powders, Ti-based bulk materials with novel microstructures can be developed for structural applications.",

author = "Kim, {K. B.} and S. Yi and Kim, {S. H.} and Kim, {W. T.} and Kim, {D. H.}",

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AU - Yi, S.

AU - Kim, S. H.

AU - Kim, W. T.

AU - Kim, D. H.

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N2 - Amorphization and crystallization behaviors of Ti70Ni15Al15 powders during mechanical alloying (MA) and subsequent heat treatments are studied. Amorphous phase that cannot be obtained in the rapidly quenched ribbon is formed in the powders after MA for 60 h. Upon continuous heating of the amorphous powders in DSC, two exothermic events are observed. The first exothermic event corresponds to the crystallization of the amorphous matrix into a supersaturated α-Ti phase of hexagonal close-packed structure. The growth kinetic of the α-Ti phase is sluggish, resulting in the formation of nanostructured α-Ti matrix. The second exothermic event corresponds to the solid state transformation of the meta-stable α-Ti into the equilibrium phases, Ti2Ni and Ti3Al. Using the amorphous powders, Ti-based bulk materials with novel microstructures can be developed for structural applications.

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