6533b857fe1ef96bd12b395f
RESEARCH PRODUCT
Creep of polymer concrete in the nonlinear region
J. JansonsK. AniskevichJ. Khristovasubject
Materials scienceAggregate (composite)Polymers and PlasticsGeneral MathematicsComposite numberPolymer concreteCondensed Matter PhysicsCompression (physics)ViscoelasticityBiomaterialsCreepMechanics of MaterialsSolid mechanicsCeramics and CompositesStress relaxationComposite materialdescription
Two polyester-based polymer concretes with various volume content of diabase as an extender and aggregate are tested in creep under compression at different stress levels. The phenomenological and structural approaches are both used to analyze the experimental data. Common features of changes in the instantaneous and creep compliances are clarified, and a phenomenological creep model which accounts for the changes in the instantaneous compliance and in the retardation spectrum depending on the stress level is developed. It is shown that the model can be used to describe the experimental results of stress relaxation and creep under repeated loading. Modeling of the composite structure and subsequent solution of the optimization problem confirm the possibility of the existence of an interphase layer more compliant than the binder. A direct correlation between the interphase volume content and the instantaneous compliance of the composite is revealed. It is found that the distinction in nonlinearity of the viscoelastic behavior of the two polymer concretes under investigation can be due to the difference in their porosity.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2000-03-01 | Mechanics of Composite Materials |