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Experimental determination and numerical prediction of mechanical properties of injection molded self-reinforcing polymer composites
Zhigang Li,
K. A. Narh
Mechanical and Industrial Engr
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Article
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peer-review
14
Scopus citations
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Dive into the research topics of 'Experimental determination and numerical prediction of mechanical properties of injection molded self-reinforcing polymer composites'. Together they form a unique fingerprint.
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Keyphrases
Polymer Composites
100%
Numerical Prediction
100%
Self-reinforced
100%
Experimental Determination
100%
Injection Speed
100%
Mold Temperature
100%
Mechanical Properties Testing
100%
Melting Temperature
50%
Volume Fraction
50%
Tensile Modulus
50%
Fiber Aspect Ratio
50%
Mold Cavity
50%
Composite Model
50%
In Situ Formation
50%
Reinforcement Effect
50%
Halpin-Tsai
50%
Low Injection
50%
Engineering
Experimental Determination
100%
Injection Speed
100%
Mould Temperature
100%
Numerical Prediction
100%
Experimental Result
50%
Young's Modulus
50%
Melting Temperature
50%
Good Agreement
50%
Aspect Ratio
50%
Mould Cavity
50%
Reinforcement Effect
50%
Material Science
Polymer Composite
100%
Liquid Crystal Polymer
100%
Elastic Moduli
33%
Volume Fraction
33%