Tehran University of Medical Sciences

Science Communicator Platform

Stay connected! Follow us on X network (Twitter):
Share By
Strengthening Efficacy of Spherical Starch Nanoparticles and Surrounding Interphase in Polymer Nanocomposites Publisher Pubmed



Y Zare Y ; Mr Naqvi Muhammad RAZA ; K Rhee KYONGYOP ; S Park SOOJIN
Authors

Source: International Journal of Biological Macromolecules Published:2025


Abstract

Although extensive experimental data exist, modeling studies on the tensile strength of starch-filled nanocomposites remain incomplete, hindering the optimization of formulations. In this study, the Nicolais-Narkis model is modified and expanded by introducing the interfacial parameter a, enabling the estimation of tensile strength in starch-based nanocomposites. The enhanced model incorporates critical factors such as interphase thickness, interphase strength, and starch particle size. Experimental data from various starch-filled samples are utilized to validate the proposed model. Furthermore, parametric analyses are conducted to evaluate the influence of all relevant parameters on the interfacial parameter a and the overall strength of the nanocomposites. The results indicate that a starch radius (R) of 20 nm with an interphase depth (t) of 50 nm yields interface parameter (a) of 10, resulting in a 300 % improvement in nanocomposite strength. In contrast, R = 90 nm and t = 15 nm result in a < 0, offering no reinforcement. These findings underscore that smaller nanoparticles and a denser interphase significantly enhance nanocomposite strength. Conversely, larger nanoparticles and a thinner interphase fail to improve the mechanical properties. Additionally, the highest values of a and nanocomposite strength are achieved with the weakest polymer matrix and the most robust interphase. In contrast, a strong polymer matrix and a weak interphase lead to a < 0, resulting in no reinforcement. © 2025 Elsevier B.V., All rights reserved.
Related Docs
View other Related Docs
1. Towards Precision in Nanocomposite Design: Predictive Model for Tensile Modulus of Polymer Starch Nanocrystals System by Interphase Features, International Journal of Biological Macromolecules (2025)
2. Predictive Models for the Tensile Strength of Polymer Composites Comprising Spherical Nano-Starch Using Interphase Properties, Industrial Crops and Products (2025)
3. Tensile Strength of Carbon-Nanotube-Based Nanocomposites by the Effective Characteristics of Interphase Area Nearby the Filler Network, Polymer Composites (2021)
Experts (# of related papers)
View all Related Experts
Hossein Ghanbari (1)
Reza Faridi Majidi (1)
Other Related Docs
4. Beyond Conventional Models: Innovative Analysis of Tensile Strength for Polymer Hydroxyapatite Nanocomposites, Colloids and Surfaces A: Physicochemical and Engineering Aspects (2024)
5. Effects of Critical Interfacial Shear Strength Between Polymer and Nanoclay on the Pukanszky's “B” Interphase Factor and Tensile Strength of Polymer Nanocomposites, Mechanics of Materials (2020)
6. A Two-Step Technique Established by Simple Models to Estimate the Tensile Strength of Halloysite Nanotubes-Filled Nanocomposites, Polymer Testing (2021)
7. A Developed Takayanagi Model to Estimate the Tensile Modulus and Interphase Characteristics of Polymer Nanocellulose Composites, Industrial Crops and Products (2023)
8. Unveiling the Impact of Interphase Properties on the Modulus of Composites Reinforced With Nanodiamond: Defining an Interfacial Adhesion Parameter, Surfaces and Interfaces (2025)
9. Significance of Interphase Depth and Clayaggregation/Agglomeration on the Young's Modulus Of Nanocomposites, Polymer Composites (2025)
10. Simulation of Tensile Strength for Polymer Hydroxyapatite Nanocomposites by Interphase and Nanofiller Dimensions, Polymer Composites (2024)
11. Crucial Interfacial Shear Strength to Consider an Imperfect Interphase in Halloysite-Nanotube-Filled Biomedical Samples, Journal of Materials Research and Technology (2022)
12. A Model for Tensile Strength of Cellulose Nanocrystals Polymer Nanocomposites, Industrial Crops and Products (2024)
13. Prediction of Interphase Parameters for Nanocellulose Composites Using a Modified Halpin–Tsai Approach, Cellulose (2023)
14. Formulation of Interfacial Parameter in Kolarik Model by Aspect Ratio of Carbon Nanotubes and Interfacial Shear Strength to Simulate the Tensile Strength of Carbon-Nanotube-Based Systems, Polymer Composites (2022)
15. Simulation of Tensile Strength for Halloysite Nanotubes/Polymer Composites, Applied Clay Science (2021)
16. Effect of Imperfect Interphase Section Neighboring Dispersed and Networked Nanoclay on the Modulus of Nanocomposites by a Modeling Method, Fibers and Polymers (2021)
17. Interfacial Stress Transfer Factor and Tensile Strength of Polymer Halloysite Nanotubes Systems, Polymer Composites (2022)
18. Surfactant Effects on the Particle Size, Zeta Potential, and Stability of Starch Nanoparticles and Their Use in a Ph-Responsive Manner, Cellulose (2017)
19. Green Synthesis of Oxidized Starch With a Novel Catalyst Based on Fe3o4 Nanoparticles and H2o2 Reagent to Form Thermoplastic As a Stable Gel Coating on the Cardiovascular Stents, International Journal of Biological Macromolecules (2022)
20. Simulation of Young's Modulus for Clay-Reinforced Nanocomposites Assuming Mechanical Percolation, Clay-Interphase Networks and Interfacial Linkage, Journal of Materials Research and Technology (2020)