Modeling and Characterization of the Relationship between Cell Size and Mechanical Behavior of Microcellular PP/Mica Composites
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W. Gong
Abstract
The microcellular foamed polypropylene (PP)/mica composites were prepared through chemical microcellular injection to investigate the relationship between the mechanical behavior and the cell size. The mechanical behavior model of the microcellular foams is built based on the elastic stress/strain field. The mechanical behavior of the microcellular composites coincides well with the theoretical model. Under loading the large and non uniform cells are in a state of plane strain, which leads to low tensile and impact strengths, whereas small and uniform cells are in a state of plane stress, which contributes to the transition from brittle to tough fracture behavior in the microcellular PP/mica composite.
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© 2010, Carl Hanser Verlag, Munich
Artikel in diesem Heft
- Contents
- Contents
- Regular Contributed Articles
- The Filling Behavior of Reinforcing Glass Fiber in Micro Injection Molding
- Modeling and Characterization of the Relationship between Cell Size and Mechanical Behavior of Microcellular PP/Mica Composites
- Three-dimensional Finite Element Solution of the Flow in Single and Twin-Screw Extruders
- Entry Flow of Polyethylene Melts in Tapered Dies
- Rheological and Molecular Investigations of Polyethylene Degradation in a Batch Mixer
- RheoDSC Analysis of Hardening of Semi-Crystalline Polymers during Quiescent Isothermal Crystallization
- Rapid Communications
- Effect of Process Parameters on Mechanical Properties of Rice Husk Polypropylene Composites
- PPS-News
- PPS News
- Seikei Kakou Abstracts
- Seikei-Kakou Abstracts
Artikel in diesem Heft
- Contents
- Contents
- Regular Contributed Articles
- The Filling Behavior of Reinforcing Glass Fiber in Micro Injection Molding
- Modeling and Characterization of the Relationship between Cell Size and Mechanical Behavior of Microcellular PP/Mica Composites
- Three-dimensional Finite Element Solution of the Flow in Single and Twin-Screw Extruders
- Entry Flow of Polyethylene Melts in Tapered Dies
- Rheological and Molecular Investigations of Polyethylene Degradation in a Batch Mixer
- RheoDSC Analysis of Hardening of Semi-Crystalline Polymers during Quiescent Isothermal Crystallization
- Rapid Communications
- Effect of Process Parameters on Mechanical Properties of Rice Husk Polypropylene Composites
- PPS-News
- PPS News
- Seikei Kakou Abstracts
- Seikei-Kakou Abstracts
