| 1 |
Strategy for reducing molecular ensemble size for efficient rheological modeling of commercial polymers
Gong YN, Ginzburg V, Vervoort S, Den Doelder J, Larson RG
Journal of Rheology, 65(1), 43, 2021 |
| 2 |
Rheology of crystallizing LLDPE
Andreev M, Nicholson DA, Kotula A, Moore JD, den Doelder J, Rutledge GC
Journal of Rheology, 64(6), 1379, 2020 |
| 3 |
Rheology provides insight into flow induced nano-structural breakdown and its recovery effect on crystallization of single and hybrid carbon nanofiller filled poly(lactic acid)
Rostami A, Vahdati M, Alimoradi Y, Karimi M, Nazockdast H
Polymer, 134, 143, 2018 |
| 4 |
Local and segmental motions of the mobile amorphous fraction in semi-crystalline polylactide crystallized under quiescent and flow-induced conditions
Monnier X, Chevalier L, Esposito A, Fernandez-Ballester L, Saiter A, Dargent E
Polymer, 126, 141, 2017 |
| 5 |
Extension decelerated crystallization in gamma-irradiated isotactic polypropylene: The role of asymmetric chain relaxation
Ju JZ, Su FM, Wang Z, Yang HR, Tang XL, Chen XW, Lv YK, Lu J, Tian N, Li LB
Polymer, 131, 68, 2017 |
| 6 |
Flow-induced crystallization of isotactic polypropylene: Modeling formation of multiple crystal phases and morphologies
Roozemond PC, van Erp TB, Peters GWM
Polymer, 89, 69, 2016 |
| 7 |
Visualization of polypropylene crystallites formed from a stressed melt in extrusion
Tabatabaei A, Mark LH, Park CB
Polymer, 101, 48, 2016 |
| 8 |
Analysis of flow induced crystallization through molecular stretch
Pantani R, De Santis F, Speranza V, Titomanlio G
Polymer, 105, 187, 2016 |
| 9 |
Analysis of flow induced crystallization through molecular stretch
Pantani R, De Santis F, Speranza V, Titomanlio G
Polymer, 105, 187, 2016 |
| 10 |
Self-Regulation in Flow-Induced Structure Formation of Polypropylene
Roozemond PC, van Drongelen M, Ma Z, Spoelstra AB, Hermida-Merino D, Peters GWM
Macromolecular Rapid Communications, 36(4), 385, 2015 |
