From microscopic interactions to macroscopic mechanical properties of filled elastomers / vorgelegt von Mariia Viktorova. Wuppertal, 2022
Content
- Acknowledgment
- Abstract
- Introduction
- Elastomer Materials
- Elastomers
- Filler Particles
- Quantities in the Rubber Industry
- Mechanical Testing of Elastomers
- Mechanical Properties of Unfilled Elastomers
- Mechanical Properties of Filled Elastomers
- Monte Carlo Morphology Generator
- Dynamic Mechanical Analysis via Simulation
- Model Parameterization
- Mechanical Properties of Filled One Polymer Systems
- Filler Morphology – Impact of Filler Surface Energy on Filler Dispersion
- Mechanical Properties – Impact of Filler Morphology on System's Dynamics
- Effect of Flocculation Time
- Polymer-Filler Interaction
- Mechanical Properties of Filled Polymer Blends
- Filler Morphology – Impact of Filler Surface Energy on Filler Dispersion
- Mechanical Properties – Impact of Filler Morphology on System's Dynamics
- The Elusive Load-Bearing Path, Frequency Dependent Heterogeneity of Strain and Stress, and the Payne Effect Revisited
- Scaling Model
- Bond Breaking
- Effect of Filler Dispersion
- Effect of Interaction Strength
- Effect of Frequency and Amplitude
- Effect of Filler Content
- Orientation Dependent Breaking
- Breaking Visualization
- Local Strain and Stress Distribution
- Relaxation
- The Payne Effect in Filled Elastomer Systems
- Conclusion
- Surface Free Energies
- Theory of Elasticity
- Simulation Parameters
- List of Figures
- List of Tables
- Bibliography
- Index