Your search keyword '"Fatemeh Maashi Sani"' showing total 2 results

1. Effect of microwave heat treatment on physical and mechanical properties of high-Density polyethylene/wood flour/Nano-SiO2 composites

Author

Amir Amini, Mohammad Farsi, Masoud Ebadi, Fatemeh Maashi Sani, and Majid Shahbabaei

Subjects

Ceramics and Composites, Condensed Matter Physics

Abstract

The study aimed at investigating the impact of Microwave Heat Treatment (MHT) on the physical and mechanical properties of wood flour (WF)/Nano-SiO2/High-Density polyethylene composites by varying Nano-SiO2 loading from 0, 1, 2, and 3% wt with a constant WF loading at 50% wt. By milling the materials in which were firstly mixed in a twin-screw extruder (Brabender® Plasti-Corder®), wood-plastic composites ASTM Standard samples were produced by an injection molding machine. Microwave irradiation with a power of 900 W and a temperature of 85°C for 7 min was applied for post-treatment of WPCs. After applying the microwave treatment, samples were subjected to physical and mechanical tests. The results indicated that increased Nano-SiO2 loading up to 3 wt% led to increasing the flexural strength and modulus while decreasing the impact resistance, water absorption, and thickness swelling of samples. As such, morphological analyses revealed that MHT increased the flexural modulus and strength, as well as, decreased the impact strength, water adsorption, and thickness swelling of the samples.

Published

2022

2. Effects of multi-walled carbon nanotubes on the physical and mechanical properties of high-density polyethylene/wood flour nanocomposites

Author

Mohammad Farsi and Fatemeh Maashi Sani

Subjects

Nanocomposite, Absorption of water, Materials science, Wood flour, Carbon nanotube, Polyethylene, Condensed Matter Physics, law.invention, chemistry.chemical_compound, chemistry, Compounding, law, Ultimate tensile strength, Ceramics and Composites, High-density polyethylene, Composite material

Abstract

In this study, the effect of multi-walled carbon nanotubes (MWCNTs) and maleic anhydride-grafted polyethylene (MAPE) on the physical and mechanical properties of composites based on wood flour (WF) and high-density polyethylene (HDPE) was investigated. To meet this objective, MWCNTs, as a reinforcing agent, in 4 levels of 0, 1, 3, and 5 wt% and MAPE, as a compatibilizer, in 2 levels of 0 and 3 wt% were used. The amount of WF was fixed at 50 wt% for all formulations. First, the materials were prepared by melt compounding process in an internal mixer (Brabender® Plasti-Corder®), and then the samples were manufactured by injection molding method. The morphology of the specimens was characterized using scanning electron microscopy (SEM) technique. The results showed that when the contents of the MWCNTs were increased from 0 to 3 wt%, the tensile strength and modulus of the samples increased to 41.7% and 24.3%, respectively, and the water absorption values of the samples decreased to 58.8%. Similar results were also observed for the thickness swelling values. Both mechanical and physical properties of samples were improved by adding MAPE up to 3 wt%. The nanocomposites having 3 wt% MWCNTs and 3 wt% MAPE exhibited the highest impact and tensile strength values, while tensile modulus and physical properties reached their maximum when 5 wt% of MWCNT and 3 wt% of MAPE were used. Also, SEM micrographs showed that CNTs can fill the voids of wood–plastic composites, and the addition of MAPE and MWCNTs enhanced the interaction between the components.

Published

2013