Mechanical behavior of Cu54Ni6Zr22Ti18 bulk amorphous alloy during multi-pass warm rolling

H. J. Kim; J. K. Lee; T. S. Kim; J. C. Bae; E. S. Park; M. Y. Huh; D. H. Kim

doi:10.1016/j.msea.2006.03.145

Mechanical behavior of Cu₅₄Ni₆Zr₂₂Ti₁₈ bulk amorphous alloy during multi-pass warm rolling

H. J. Kim, J. K. Lee, T. S. Kim, J. C. Bae, E. S. Park, M. Y. Huh, D. H. Kim

Department of Materials Science and Engineering

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

12 Citations (Scopus)

Abstract

Cu-Ni-Zr-Ti bulk amorphous thin strips were produced by multi-pass warm rolling of the amorphous powder at temperatures in the supercooled liquid region. Process variables for rolling of the bulk amorphous strips were properly controlled to prevent onset of crystallization and failure during rolling up to three passes. During rolling of the amorphous powder, both the deformation and densification took place and the newly developed surface on the deformed amorphous particles enhances the consolidation leading to an increase in the strength. The strain state during rolling was analyzed by use of the finite element method. FEM results indicate that a high strain rate larger than 10 s^-1 prevails during rolling and gradients of the tensile strain rate in the rolling direction may initiate cracks.

Original language	English
Pages (from-to)	929-933
Number of pages	5
Journal	Materials Science and Engineering A
Volume	449-451
DOIs	https://doi.org/10.1016/j.msea.2006.03.145
Publication status	Published - 2007 Mar 25

Bibliographical note

Funding Information:
This work is supported by the next generation new technology development program of ministry of commerce, industry and energy in Korea.

All Science Journal Classification (ASJC) codes

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

Access to Document

10.1016/j.msea.2006.03.145

Cite this

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title = "Mechanical behavior of Cu54Ni6Zr22Ti18 bulk amorphous alloy during multi-pass warm rolling",

abstract = "Cu-Ni-Zr-Ti bulk amorphous thin strips were produced by multi-pass warm rolling of the amorphous powder at temperatures in the supercooled liquid region. Process variables for rolling of the bulk amorphous strips were properly controlled to prevent onset of crystallization and failure during rolling up to three passes. During rolling of the amorphous powder, both the deformation and densification took place and the newly developed surface on the deformed amorphous particles enhances the consolidation leading to an increase in the strength. The strain state during rolling was analyzed by use of the finite element method. FEM results indicate that a high strain rate larger than 10 s-1 prevails during rolling and gradients of the tensile strain rate in the rolling direction may initiate cracks.",

author = "Kim, {H. J.} and Lee, {J. K.} and Kim, {T. S.} and Bae, {J. C.} and Park, {E. S.} and Huh, {M. Y.} and Kim, {D. H.}",

note = "Funding Information: This work is supported by the next generation new technology development program of ministry of commerce, industry and energy in Korea.",

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AU - Kim, H. J.

AU - Lee, J. K.

AU - Kim, T. S.

AU - Bae, J. C.

AU - Park, E. S.

AU - Huh, M. Y.

AU - Kim, D. H.

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PY - 2007/3/25

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AB - Cu-Ni-Zr-Ti bulk amorphous thin strips were produced by multi-pass warm rolling of the amorphous powder at temperatures in the supercooled liquid region. Process variables for rolling of the bulk amorphous strips were properly controlled to prevent onset of crystallization and failure during rolling up to three passes. During rolling of the amorphous powder, both the deformation and densification took place and the newly developed surface on the deformed amorphous particles enhances the consolidation leading to an increase in the strength. The strain state during rolling was analyzed by use of the finite element method. FEM results indicate that a high strain rate larger than 10 s-1 prevails during rolling and gradients of the tensile strain rate in the rolling direction may initiate cracks.

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