Investigation of Thermal Fatigue Behavior for HDPE Composites Reinforced by Nano Alumina

Investigation of Thermal Fatigue Behavior for HDPE Composites Reinforced by Nano Alumina

High-Density Polyethylene (HDPE) like other thermoplastics has low mechanical properties which limits its range of applications, especially under the influence of dynamic loads and high temperatures. Therefore,  as one of the highly attractive approaches for improving mechanical properties, nanomate...

Full description

Saved in:
Bibliographic Details
Main Authors: Orhan Abdullah, Akeel Mahdi
Format: Article
Language:English
Published: Semnan University 2024-11-01
Series:Mechanics of Advanced Composite Structures
Subjects:
thermal fatigue
hdpe
nano alumina oxide
high cycle fatigue
Online Access:https://macs.semnan.ac.ir/article_8422_31a0e7541e3e0efc377d8d43c368f358.pdf
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:High-Density Polyethylene (HDPE) like other thermoplastics has low mechanical properties which limits its range of applications, especially under the influence of dynamic loads and high temperatures. Therefore,  as one of the highly attractive approaches for improving mechanical properties, nanomaterials have been used as reinforcement materials in polymer matrix composite. The present study focuses on the role of nanomaterials on the mechanical properties and fatigue resistance of high-density polyethylene reinforced with (1, 2, and 3%) nano alumina oxide at a range of testing temperatures between 20 and 60ºC. The results manifested that the addition of nano alumina oxide improves the strength of base polyethylene and increases the fatigue resistance by (63.7%, 146.5%, and 228.4%), (69.25, 163.5 and 202.8) and (94%, 214.8% and 290.3) at (20. 40 and 60°C), respectively in cooperation with the pure high-density polyethylene. In addition, as the applied testing temperature increases, the fatigue resistance in all test specimens decreases. It was found that the highest fatigue resistance occurred at (HDPE+3%Al2O3) composite due to the good distribution of nano Al2O3 within the HDPE base which led to a better crack propagation prevention than other composites.
ISSN:2423-4826
2423-7043

Similar Items