Effect of ZnFe2O4 addition on the properties of epoxidised natural rubber (ENR-25) Composite

Electroceramic with high magnetic properties is widely used in electronic application such as an inductor, transducer, etc. Among the electroceramic, ferrite-based compound offers a wide range of spectrum with good magnetic properties and become desirable in many device applications. However, the br...

Full description

Saved in:
Bibliographic Details
Main Author: Sukri, Suziey Syamimi
Format: Undergraduate Final Project Report
Published: 2019
Online Access:http://discol.umk.edu.my/id/eprint/4830/
Tags: Add Tag
No Tags, Be the first to tag this record!
id my.umk.eprints.4830
record_format eprints
spelling my.umk.eprints.48302022-05-23T08:35:32Z http://discol.umk.edu.my/id/eprint/4830/ Effect of ZnFe2O4 addition on the properties of epoxidised natural rubber (ENR-25) Composite Sukri, Suziey Syamimi Electroceramic with high magnetic properties is widely used in electronic application such as an inductor, transducer, etc. Among the electroceramic, ferrite-based compound offers a wide range of spectrum with good magnetic properties and become desirable in many device applications. However, the brittle nature of ceramics has limited their use in a certain application such as in tunable and bendable device. Solution to the shortfall, flexible materials like rubber can be used to mix with the magnetic ceramic. As a result, high magnetic flexible composite materials will be produced. In this present study, the magnetic ceramic of ZnFe2O4 was synthesised using solid-state reaction technique and blended with epoxidised natural rubber (ENR25) at different loading (0, 20, 40, 60, 80, 100 and 120 phr). The composites produced were characterised their phases, mechanical and dielectric properties using x-ray diffraction, fourier transform infrared, tensile analysis and lcr-meter. From the results, the phase of ZnFe2O4 was successfully produced as confirmed by XRD analysis. The tensile strength of different content of ZnFe2O4 shows the increase of tensile stress for all samples from 8.49 to 14.09 MPa except 80 phr that have a higher value than 120 phr which is 14.09 and 12.75 MPa and this is believed due to the efficiency of the network in rubber composites that orient in the direction of stretching is already saturated at that concentration. Based on the results obtained from FTIR analysis, the element that presented in the composite are aliphatic hydrocarbons which is hexane and also can be assigned as hydrosilane. From thermogravimetric analysis and differential scanning calorimetry results, the thermal behavior of the glass transition temperature shift to the left with the increasing of the ZnFe2O4 filler due to the incorporation of ZnFe2O4 filler in rubber do improved the thermal resistance. Apart from that, the composites possessed an increasing of dielectric constant from 4.94 to 5.62 at 1.15 MHz with the increasing of ZnFe2O4 concentration and for the dielectric loss, the composites possesed the decreasing of dielectric loss start from 0.0827 MHz to 0.0586 MHz. The conclusion is the 80 phr of ZnFe2O4 loading is a great content that exhibits excellent properties to balance the mechanical and electrical properties which is 14.09 MPa in its tensile strength and 5.52 at 1.15 MHz for the dielectric constant. Overall, the composite achieve optimum condition with excellent properties at 80 phr of ZnFe2O4. 2019 Undergraduate Final Project Report NonPeerReviewed Sukri, Suziey Syamimi (2019) Effect of ZnFe2O4 addition on the properties of epoxidised natural rubber (ENR-25) Composite. Final Year Project thesis, Universiti Malaysia Kelantan. (Submitted)
institution Universiti Malaysia Kelantan
building Perpustakaan Universiti Malaysia Kelantan
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Malaysia Kelantan
content_source UMK Institutional Repository
url_provider http://umkeprints.umk.edu.my/
description Electroceramic with high magnetic properties is widely used in electronic application such as an inductor, transducer, etc. Among the electroceramic, ferrite-based compound offers a wide range of spectrum with good magnetic properties and become desirable in many device applications. However, the brittle nature of ceramics has limited their use in a certain application such as in tunable and bendable device. Solution to the shortfall, flexible materials like rubber can be used to mix with the magnetic ceramic. As a result, high magnetic flexible composite materials will be produced. In this present study, the magnetic ceramic of ZnFe2O4 was synthesised using solid-state reaction technique and blended with epoxidised natural rubber (ENR25) at different loading (0, 20, 40, 60, 80, 100 and 120 phr). The composites produced were characterised their phases, mechanical and dielectric properties using x-ray diffraction, fourier transform infrared, tensile analysis and lcr-meter. From the results, the phase of ZnFe2O4 was successfully produced as confirmed by XRD analysis. The tensile strength of different content of ZnFe2O4 shows the increase of tensile stress for all samples from 8.49 to 14.09 MPa except 80 phr that have a higher value than 120 phr which is 14.09 and 12.75 MPa and this is believed due to the efficiency of the network in rubber composites that orient in the direction of stretching is already saturated at that concentration. Based on the results obtained from FTIR analysis, the element that presented in the composite are aliphatic hydrocarbons which is hexane and also can be assigned as hydrosilane. From thermogravimetric analysis and differential scanning calorimetry results, the thermal behavior of the glass transition temperature shift to the left with the increasing of the ZnFe2O4 filler due to the incorporation of ZnFe2O4 filler in rubber do improved the thermal resistance. Apart from that, the composites possessed an increasing of dielectric constant from 4.94 to 5.62 at 1.15 MHz with the increasing of ZnFe2O4 concentration and for the dielectric loss, the composites possesed the decreasing of dielectric loss start from 0.0827 MHz to 0.0586 MHz. The conclusion is the 80 phr of ZnFe2O4 loading is a great content that exhibits excellent properties to balance the mechanical and electrical properties which is 14.09 MPa in its tensile strength and 5.52 at 1.15 MHz for the dielectric constant. Overall, the composite achieve optimum condition with excellent properties at 80 phr of ZnFe2O4.
format Undergraduate Final Project Report
author Sukri, Suziey Syamimi
spellingShingle Sukri, Suziey Syamimi
Effect of ZnFe2O4 addition on the properties of epoxidised natural rubber (ENR-25) Composite
author_facet Sukri, Suziey Syamimi
author_sort Sukri, Suziey Syamimi
title Effect of ZnFe2O4 addition on the properties of epoxidised natural rubber (ENR-25) Composite
title_short Effect of ZnFe2O4 addition on the properties of epoxidised natural rubber (ENR-25) Composite
title_full Effect of ZnFe2O4 addition on the properties of epoxidised natural rubber (ENR-25) Composite
title_fullStr Effect of ZnFe2O4 addition on the properties of epoxidised natural rubber (ENR-25) Composite
title_full_unstemmed Effect of ZnFe2O4 addition on the properties of epoxidised natural rubber (ENR-25) Composite
title_sort effect of znfe2o4 addition on the properties of epoxidised natural rubber (enr-25) composite
publishDate 2019
url http://discol.umk.edu.my/id/eprint/4830/
_version_ 1763303468869615616
score 13.214267