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Microstructure and mechanical properties of Ti
x
(AlCrVNb)
100-x
light weight multi-principal element alloys
X. K. Zhang
, J. C. Huang
, P. H. Lin
, T. Y. Liu
, Y. C. Wu
, W. P. Li
, Y. N. Wang
, Y. C. Liao
,
Jason S.C. Jang
材料科學與工程研究所
研究成果
:
雜誌貢獻
›
期刊論文
›
同行評審
54
引文 斯高帕斯(Scopus)
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x
(AlCrVNb)
100-x
light weight multi-principal element alloys」主題。共同形成了獨特的指紋。
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Keyphrases
Mechanical Properties
100%
Microstructure Properties
100%
Body-centered Cubic
100%
Multi-principal Element Alloys
100%
Ti60
50%
Ti80
50%
Low Density
25%
Ductility
25%
Microstructure
25%
Grain Boundary
25%
Structure-property Relationships
25%
Yield Strength
25%
Strengthening Mechanism
25%
Modeling Results
25%
Strength Degradation
25%
Solid Solution Phase
25%
Single Body
25%
Nanosized Particles
25%
Solid Solution Strengthening
25%
Equilibrium and Non-equilibrium
25%
Phase Constitution
25%
Brittleness
25%
As-cast State
25%
Specific Strength
25%
Ti Content
25%
Compression Yield Strength
25%
Vacuum Arc Melting
25%
Thermodynamic Modeling
25%
Room Temperature Tensile Properties
25%
Atomic Size Difference
25%
Engineering
Body-Centered Cubic
100%
Alloy Element
100%
Solid Solutions
50%
Yield Point
50%
Tensile Property
25%
Nonequilibrium
25%
Room Temperature
25%
Strengthening Mechanism
25%
Nanosized Particle
25%
Atomic Size
25%
Increasing Ti Content
25%
Melting Point
25%
Crystal Structure
25%
Brittleness
25%
Material Science
Multi-Principal Element Alloys
100%
Density
75%
Yield Stress
50%
Solid Solutions
50%
Tensile Property
25%
Brittleness
25%
Crystal Structure
25%
Grain Boundary
25%