Cu-based metallic glass particle additions to significantly improve overall compressive properties of an Al alloy

We report the development of a novel light-weight Al (520) alloy-based composite reinforced with particles of a Cu-based (Cu 54Zr 36Ti 10) metallic glass by mechanical milling followed by induction heated sintering. The consolidation of the composite is performed at a temperature in the super-cooled...

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Published inActa materialia Vol. 41; no. 10; pp. 1551 - 1557
Main Authors Dudina, D.V., Georgarakis, K., Aljerf, M., Li, Y., Braccini, M., Yavari, A.R., Inoue, A.
Format Journal Article
LanguageEnglish
Published Kidlington Elsevier Ltd 01.10.2010
Elsevier
Subjects
A. Metal-matrix composites (MMCs)
Alloy development
Aluminum base alloys
Amorphous materials
Applied sciences
B. Mechanical properties
B. Microstructures
Chemical Sciences
Consolidation
Copper
Dispersion hardening metals
E. Sintering
Exact sciences and technology
Material chemistry
Mechanical milling
Metallic glasses
Metals. Metallurgy
Particulate composites
Powder metallurgy. Composite materials
Production techniques
Sintering (powder metallurgy)
Metallic glasses
B. Mechanical properties
E. Sintering
B. Microstructures
A. Metal-matrix composites (MMCs)
Titanium alloy
Strengthening
Metal matrix composite
Grinding(comminution)
Mechanical properties
Zirconium alloy
Compressive strength
Aluminium alloy
Experimental study
Composite material
Dispersion strengthened metal
Sintering
Magnesium alloy
Yield strength
Microstructure
Copper alloy
STRENGTH
Microstructures
TITANIUM
MECHANICAL-PROPERTIES
ZR-TI
Metal-matrix composites (MMCs)
REINFORCEMENT
FABRICATION
MATRIX COMPOSITES
STRUCTURAL-MATERIALS
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Abstract We report the development of a novel light-weight Al (520) alloy-based composite reinforced with particles of a Cu-based (Cu 54Zr 36Ti 10) metallic glass by mechanical milling followed by induction heated sintering. The consolidation of the composite is performed at a temperature in the super-cooled liquid region of the metallic glass just above its glass-transition temperature ( T g ). Metallic glasses are a promising alternative reinforcement material for metal-matrix composites capable of producing significant strengthening along with a «friendly» sintering behavior. The mechanical milling procedures were properly established to allow reduction of the size of the metallic glass particles and their uniform distribution in the matrix. Microstructural observation of the composite did not reveal any porosity. The interface between the glassy particles and the matrix remained free of such defects. The fully dense consolidated composite showed a drastic gain in specific yield strength under compression relative to the matrix alloy and appreciable plasticity at fracture.
AbstractList We report the development of a novel light-weight Al (520) alloy-based composite reinforced with particles of a Cu-based (Cu54Zr36Ti10) metallic glass by mechanical milling followed by induction heated sintering. The consolidation of the composite is performed at a temperature in the super-cooled liquid region of the metallic glass just above its glass-transition temperature (Tg ). Metallic glasses are a promising alternative reinforcement material for metal-matrix composites capable of producing significant strengthening along with a A'friendlyA' sintering behavior. The mechanical milling procedures were properly established to allow reduction of the size of the metallic glass particles and their uniform distribution in the matrix. Microstructural observation of the composite did not reveal any porosity. The interface between the glassy particles and the matrix remained free of such defects. The fully dense consolidated composite showed a drastic gain in specific yield strength under compression relative to the matrix alloy and appreciable plasticity at fracture.
We report the development of a novel light-weight Al (520) alloy-based composite reinforced with particles of a Cu-based (Cu 54Zr 36Ti 10) metallic glass by mechanical milling followed by induction heated sintering. The consolidation of the composite is performed at a temperature in the super-cooled liquid region of the metallic glass just above its glass-transition temperature ( T g ). Metallic glasses are a promising alternative reinforcement material for metal-matrix composites capable of producing significant strengthening along with a «friendly» sintering behavior. The mechanical milling procedures were properly established to allow reduction of the size of the metallic glass particles and their uniform distribution in the matrix. Microstructural observation of the composite did not reveal any porosity. The interface between the glassy particles and the matrix remained free of such defects. The fully dense consolidated composite showed a drastic gain in specific yield strength under compression relative to the matrix alloy and appreciable plasticity at fracture.
We report the development of a novel light-weight Al (520) alloy-based composite reinforced with particles of a Cu-based (Cu54Zr36Ti10) metallic glass by mechanical milling followed by induction heated sintering. The consolidation of the composite is performed at a temperature in the super-cooled liquid region of the metallic glass just above its glass-transition temperature (T-g). Metallic glasses are a promising alternative reinforcement material for metal-matrix composites capable of producing significant strengthening along with a friendly sintering behavior. The mechanical milling procedures were properly established to allow reduction of the size of the metallic glass particles and their uniform distribution in the matrix. Microstructural observation of the composite did not reveal any porosity. The interface between the glassy particles and the matrix remained free of such defects. The fully dense consolidated composite showed a drastic gain in specific yield strength under compression relative to the matrix alloy and appreciable plasticity at fracture.
Author Dudina, D.V.
Georgarakis, K.
Inoue, A.
Li, Y.
Braccini, M.
Yavari, A.R.
Aljerf, M.
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  surname: Dudina
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  surname: Georgarakis
  fullname: Georgarakis, K.
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  fullname: Aljerf, M.
  organization: Euronano, SIMaP-CNRS, Institut Polytechnique de Grenoble (INPG), 1130 rue de la Piscine, 38402 Saint-Martin d’Heres Campus, France
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  givenname: Y.
  surname: Li
  fullname: Li, Y.
  organization: Euronano, SIMaP-CNRS, Institut Polytechnique de Grenoble (INPG), 1130 rue de la Piscine, 38402 Saint-Martin d’Heres Campus, France
– sequence: 5
  givenname: M.
  surname: Braccini
  fullname: Braccini, M.
  organization: Euronano, SIMaP-CNRS, Institut Polytechnique de Grenoble (INPG), 1130 rue de la Piscine, 38402 Saint-Martin d’Heres Campus, France
– sequence: 6
  givenname: A.R.
  surname: Yavari
  fullname: Yavari, A.R.
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– sequence: 7
  givenname: A.
  surname: Inoue
  fullname: Inoue, A.
  organization: WPI-AIM Research, Tohoku University, Aoba-Ku, Sendai 980-8577, Japan
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Issue 10
Keywords Metallic glasses
B. Mechanical properties
E. Sintering
B. Microstructures
A. Metal-matrix composites (MMCs)
Titanium alloy
Strengthening
Metal matrix composite
Grinding(comminution)
Mechanical properties
Zirconium alloy
Compressive strength
Aluminium alloy
Experimental study
Composite material
Dispersion strengthened metal
Sintering
Magnesium alloy
Yield strength
Microstructure
Copper alloy
STRENGTH
Microstructures
TITANIUM
MECHANICAL-PROPERTIES
ZR-TI
Metal-matrix composites (MMCs)
REINFORCEMENT
FABRICATION
MATRIX COMPOSITES
STRUCTURAL-MATERIALS
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Snippet We report the development of a novel light-weight Al (520) alloy-based composite reinforced with particles of a Cu-based (Cu 54Zr 36Ti 10) metallic glass by...
We report the development of a novel light-weight Al (520) alloy-based composite reinforced with particles of a Cu-based (Cu54Zr36Ti10) metallic glass by...
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SubjectTerms A. Metal-matrix composites (MMCs)
Alloy development
Aluminum base alloys
Amorphous materials
Applied sciences
B. Mechanical properties
B. Microstructures
Chemical Sciences
Consolidation
Copper
Dispersion hardening metals
E. Sintering
Exact sciences and technology
Material chemistry
Mechanical milling
Metallic glasses
Metals. Metallurgy
Particulate composites
Powder metallurgy. Composite materials
Production techniques
Sintering (powder metallurgy)
Title Cu-based metallic glass particle additions to significantly improve overall compressive properties of an Al alloy
URI https://dx.doi.org/10.1016/j.compositesa.2010.07.004
https://search.proquest.com/docview/787193063
https://hal.science/hal-00527996
Volume 41
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