The Research of Physical and Mechanical, Thermophysical Properties of Epoxy-Polyester Composite Materials Filled with Discrete Fibers to Increase the Reliability of Vehicles

Mykola Brailo,Kherson State Maritime Academy, Kherson, Ukraine ,Eduard Appazov,Oleksandr Sharko,Oksana Kobelnik,Dmytro Kruglyj

doi:10.35940/ijeat.d8421.049420

Mykola Brailo, Kherson State Maritime Academy, Kherson, Ukraine + Show 4 more

Open Access

https://doi.org/10.35940/ijeat.d8421.049420

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Abstract

In the article the polymeric materials based on epoxy-polyester binder with addition of dispersed fibers were developed. The mechanical and thermophysical methods were used. The influence of carbon fibers (0.01–0.30 pts.wt.) and cotton (0.01–0.30 pts.wt.) on the physical and mechanical, thermophysical properties of epoxy-polyester composites was investigated. The results of the experiment showed that the introduction of carbon fibers leads to an increase in the fracture stresses, the flexural modulus; the maximum increase was observed for the carbon fiber content q = 0.01 pts.wt. (fl = 71.0 MPa, E = 3.8 GPa, W = 7.8 kJ/m2 ). The heat resistance of composite materials at this content of carbon fibers is maximal (T = 337 K), and the coefficient of linear thermal expansion (CLTE) is minimal and decreases in all temperature ranges (compared to the matrix). It was found, that the introduction of cotton fibers at a content q = 0.02 pts.wt. into the composition leads to an increase of the flexural modulus from E = 3.6 GPa (matrix) to E = 3.8 GPa and flexural stresses from fl = 50.4 MPa to fl = 55.2 MPa. The impact strength of such materials decreases from W = 8.3 kJ/m2 to W = 4.9 kJ/m2 . The results of the study of physical and mechanical properties of composite materials with the addition of cotton fibers were confirmed by thermophysical properties. It was found, that the heat resistance of materials increases from T = 335 K to T = 338 K at this content. The developed composite materials filled can be used to protect equipment, which are exposed to high temperatures or dynamic loads at moderate temperatures

Highlights

At the present stage, the progress of the transport technologies there is a need to employ the polymeric materials in the manufacturing, repair and recovery of separate parts and mechanisms [1]–[4]
In the paper [15], a polymeric composite materials (PCMs), that is characterized by high conductivity and wear resistance based on epoxy resin and graphite, was developed
With an additional increase of carbon fibers content (q = 0.02 pts.wt.), we observed a decline of indexes of flexural modulus from E = 3.6 GPa to E = 3.3 GPa and flexural stresses to fl = 55.2 MPa

Summary

Introduction

The progress of the transport technologies there is a need to employ the polymeric materials in the manufacturing, repair and recovery of separate parts and mechanisms [1]–[4]. The authors [14] studied the physical and mechanical, tribological properties of CM based on epoxy resin. Authors [16]–[20] were shown that the CM’s physical and mechanical properties were enhanced by influence of energy fields, ultraviolet irradiation, and ultrasonic processing (USP). Properties of polymeric materials based on unsaturated polyester resins of different nature were explored by separately groups of authors: He S., Petkovich ND, Liu K. The advantages of using multicomponent polymeric materials to improve adhesion, physical and mechanical properties were shown by authors Y.

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