Abstract
Abstract
In this study, the effects of different concentrations of stearic acid-coated calcite (CaCO3) on the mechanical, thermal, and morphological properties of thermoplastic polyester elastomer (COPE or TPE-E) were investigated. At the same time, COPEs, which consist of process wastes, that are qualified as PIR (postindustrial recycled), were physically recycled. 100% recycled polymer composites were obtained by blending the physically recycled COPE polymer with stearic acid-coated calcite at different concentrations. COPE composites (virgin and PIR) containing different concentrations of calcite (5 to 30%wt) were prepared by melt compounding. It has been determined that mechanical properties such as flexural strength and modulus increase with calcite concentration, while tensile strength decreases at higher concentrations owing to the stronger interfacial relations between polymer matrix and stearic acid-coated calcite. It was observed that the thermal properties of the composite increased with the calcite filler concentration. Morphological studies revealed a good dispersion of calcite fillers at lower concentrations in the polymer matrix.
Publisher
Research Square Platform LLC
Reference42 articles.
1. Walker B (1979) Handbook of Thermoplastic Elastomer. Litton Education, New York
2. Effect of concentration of mica on properties of polyester thermoplastic elastomer composites;Sreekanth M;J Min Mater Charact Eng,2009
3. Research progress of elastomer materials and application of elastomers in drilling fluid;Yang L;Polymers,2023
4. Fused deposition modeling of thermoplastic elastomeric materials: Challenges and opportunities;Awasthi P;Addit Manuf,2021
5. Styrenic block copolymer-based thermoplastic elastomers in smart applications: Advances in synthesis, microstructure, and structure–property relationships—A review;Maji P;J Appl Polym Sci,2022