Morphology and mechanical properties of NiZn ferrite/ thermoplastic natural rubber composite

Mou'ad A. Tarawneh, Sahrim Ahmad, Yu Lih Jiun, Radwan Dweiri, Ibrahim N. Hassan

Research output: Chapter in Book/Report/Conference proceedingConference contribution

1 Citation (Scopus)

Abstract

In this paper the polymer nanocomposite of nickel zinc (NiZn) ferrite nanoparticles incorporated into the thermoplastic natural rubber nanocomposite (TPNR) were prepared via melt blending method. The effect of different NiZn loading (2-10 wt%) on morphology, tensile and dynamic mechanical properties of the obtained composites was investigated. It was found that NiZn ferrite is well dispersed in the thermoplastic natural rubber matrix. The tensile results indicated that filler loading has improved the tensile strength and Young's modulus of the nanocomposite. However, the elongation at break decreased with increasing the percentage of NiZn. Dynamic mechanical test showed that the highest storage modulus is at 8 wt% filler. Any further increment of the filler content leads to the formation of agglomerate hence affecting the properties. The Scanning electron micrograph (SEM) micrographs reveal aspect ratio and filler orientation in the TPNR matrix also strongly promoted interfacial adhesion between the filler and the matrix to control its properties.

Original languageEnglish
Title of host publicationAdvanced Materials Research
PublisherTrans Tech Publications
Pages308-312
Number of pages5
Volume925
ISBN (Print)9783038350866
DOIs
Publication statusPublished - 2014
EventJoint International Conference on Nanoscience, Engineering and Management, BOND21 - Penang
Duration: 19 Aug 201321 Aug 2013

Publication series

NameAdvanced Materials Research
Volume925
ISSN (Print)10226680

Other

OtherJoint International Conference on Nanoscience, Engineering and Management, BOND21
CityPenang
Period19/8/1321/8/13

Fingerprint

Thermoplastics
Ferrite
Fillers
Rubber
Zinc
Nickel
Nanocomposites
Mechanical properties
Composite materials
Elastic moduli
Aspect ratio
Elongation
Tensile strength
Adhesion
Nanoparticles
Scanning
Electrons
Polymers

Keywords

  • Dynamic mechanical properties
  • Magnetic polymer nanocomposite
  • Nickel zinc
  • Polymer matrix composite
  • Thermoplastic natural rubber

ASJC Scopus subject areas

  • Engineering(all)

Cite this

Tarawneh, M. A., Ahmad, S., Jiun, Y. L., Dweiri, R., & Hassan, I. N. (2014). Morphology and mechanical properties of NiZn ferrite/ thermoplastic natural rubber composite. In Advanced Materials Research (Vol. 925, pp. 308-312). (Advanced Materials Research; Vol. 925). Trans Tech Publications. https://doi.org/10.4028/www.scientific.net/AMR.925.308

Morphology and mechanical properties of NiZn ferrite/ thermoplastic natural rubber composite. / Tarawneh, Mou'ad A.; Ahmad, Sahrim; Jiun, Yu Lih; Dweiri, Radwan; Hassan, Ibrahim N.

Advanced Materials Research. Vol. 925 Trans Tech Publications, 2014. p. 308-312 (Advanced Materials Research; Vol. 925).

Research output: Chapter in Book/Report/Conference proceedingConference contribution

Tarawneh, MA, Ahmad, S, Jiun, YL, Dweiri, R & Hassan, IN 2014, Morphology and mechanical properties of NiZn ferrite/ thermoplastic natural rubber composite. in Advanced Materials Research. vol. 925, Advanced Materials Research, vol. 925, Trans Tech Publications, pp. 308-312, Joint International Conference on Nanoscience, Engineering and Management, BOND21, Penang, 19/8/13. https://doi.org/10.4028/www.scientific.net/AMR.925.308
Tarawneh MA, Ahmad S, Jiun YL, Dweiri R, Hassan IN. Morphology and mechanical properties of NiZn ferrite/ thermoplastic natural rubber composite. In Advanced Materials Research. Vol. 925. Trans Tech Publications. 2014. p. 308-312. (Advanced Materials Research). https://doi.org/10.4028/www.scientific.net/AMR.925.308
Tarawneh, Mou'ad A. ; Ahmad, Sahrim ; Jiun, Yu Lih ; Dweiri, Radwan ; Hassan, Ibrahim N. / Morphology and mechanical properties of NiZn ferrite/ thermoplastic natural rubber composite. Advanced Materials Research. Vol. 925 Trans Tech Publications, 2014. pp. 308-312 (Advanced Materials Research).
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