| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 807021 | Theoretical and Applied Fracture Mechanics | 2015 | 9 Pages |
•Brittle failure of PUR materials is assessed using Theory of Critical Distances.•Correlations between critical distance and microstructure cell diameter was found.•Relationship between inherent stress and ultimate tensile strength was proposed.•The TCD was applied to predict maximum load for different notched geometries.•New relation was proposed for the critical distance in mixed mode loading.
The notch effect in Polyurethane materials of different densities is investigated. Tensile specimens with lateral V and U symmetric notches and with holes of different diameters were tested. The material parameters inherent stress and critical distance are determined using a linear elastic finite element analysis in conjunction with experimental results of average maximum load. The paper proposed an original correlation between critical distance and the cell diameter of the cellular structure, respectively between inherent stress and the ultimate tensile strength of Polyurethane materials. Then for single edge notch specimens a relationship between critical distance and applied mixed mode is found and successfully applied to assess the brittle mixed mode of Polyurethane materials.
