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Preparation and properties of water‐borne polyurethane‐sodium lignosulfonate/nano‐calcium carbonate composites

Guanghua Pan, Xing Li, W. Xu, Qinglin Xie, Nanchun Chen

2023Polymer Composites17 citationsDOIOpen Access PDF

Abstract

Abstract To improve the application range of waterborne polyurethane (WPU), in this study, nano calcium carbonate/sodium lignosulfonate (CaCO 3 /SL) composites were prepared using sodium lignosulfonate (SL) wet‐modified calcium carbonate nanoparticles. Then, a series of waterborne polyurethane (WPU) nanocomposites (WPU‐CaCO 3 /SL) were prepared by solution mixing. Zeta, FT‐IR, XRD, SEM, and TGA were used to characterize the structure and morphology of CaCO 3 /SL and WPU‐CaCO 3 /SL. By conducting an analysis on the impact of various dosages of CaCO 3 /SL composite on the performance of WPU, the findings revealed that the tensile strength of WPU‐CaCO 3 /SL nanocomposites, when composed with a 3 wt% CaCO 3 /SL dosage, exhibited a significant increase of 116% from 6.93 to 14.95 mPa. The water contact angle demonstrated a significant increase from 78.3° to 90.1°. Additionally, the maximum decomposition temperature showed a noticeable rise of approximately 7°C. The WPU exhibit enhanced heat resistance, water resistance and mechanical properties, as well as exceptional ultraviolet (UV) absorption capabilities. This study provides a reference for modifying polymers with inorganic fillers and improving the optical properties of polymeric materials. Highlights Successful modification of nano calcium carbonate using biopolymer SL. Modified CaCO 3 /SL can be uniformly dispersed in water. Improved thermal stability of WPU composites. WPU composites exhibit excellent mechanical properties and water resistance. Well‐dispersed CaCO 3 /SL improves ultraviolet radiation resistance of WPU composites.

Topics & Concepts

Materials scienceCalcium carbonatePolyurethaneNanocompositeComposite materialAbsorption of waterUltimate tensile strengthThermal stabilityChemical engineeringEngineeringPolymer composites and self-healingLignin and Wood ChemistryFlame retardant materials and properties