Effects of polymorphic form and particle size of SiO2 fillers on the properties of SiO2–PEEK composites

The effects of polymorphic form and particle size of SiO2 fillers on the dielectric, mechanical and thermal properties of SiO2–Polyetheretherketone (SiO2–PEEK) composites were investigated in this paper. Strong low frequency (<10Hz) Debye-like dielectric dispersions could be observed for all samp...

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Main Authors: Peng Jie Xue, Shi Lin Liu, Jian Jiang Bian
Format: Article
Language:English
Published: World Scientific Publishing 2021-08-01
Series:Journal of Advanced Dielectrics
Subjects:
Online Access:http://www.worldscientific.com/doi/epdf/10.1142/S2010135X21500211
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spelling doaj-4f894cabf4664a33a129c605bd39bbf72021-09-09T11:55:42ZengWorld Scientific PublishingJournal of Advanced Dielectrics2010-135X2010-13682021-08-011142150021-12150021-810.1142/S2010135X2150021110.1142/S2010135X21500211Effects of polymorphic form and particle size of SiO2 fillers on the properties of SiO2–PEEK compositesPeng Jie Xue0Shi Lin Liu1Jian Jiang Bian2School of Material Science and Engineering, Shanghai University, 333 Nanchen Road, Shanghai 200444, P. R. ChinaSchool of Material Science and Engineering, Shanghai University, 333 Nanchen Road, Shanghai 200444, P. R. ChinaSchool of Material Science and Engineering, Shanghai University, 333 Nanchen Road, Shanghai 200444, P. R. ChinaThe effects of polymorphic form and particle size of SiO2 fillers on the dielectric, mechanical and thermal properties of SiO2–Polyetheretherketone (SiO2–PEEK) composites were investigated in this paper. Strong low frequency (<10Hz) Debye-like dielectric dispersions could be observed for all samples. The dielectric permittivity at high frequencies of the composite exhibits little morphology or particle size-sensitive characteristics of the SiO2 fillers. All the composites obtained in this case demonstrate the dielectric permittivities of ∼ 3.5 at high frequencies. The crystalline α-cristobalite filled composite exhibits lower dielectric loss and mechanical strength, but larger thermal expansion coefficient and thermal conductivity, compared with the similar particle sized amorphous SiO2 filled one. The crystalline α-quartz filled composite demonstrates the lowest mechanical strength and highest dielectric loss. An increase in particle size of the spherical fused silica fillers decreases the dielectric loss, while increases the thermal conductivity of the composite. The flexural strength of the composite reaches the maximum value of 113 MPa when the particle size of spherical SiO2 filler is ∼ 10μm. Particle packing by combining optimal amounts of differently sized spherical fused silica fillers leads to a substantial improvement of mechanical strength (153MPa) coupled with reasonable dielectric and thermal properties due to the synergic effect (dielectric permittivity (𝜀r) = 3.35, dielectric loss (tanδ) = 1.63 × 10−3 @10 GHz, thermal conductivity (λ) = 0.74 W/m*k (90∘C), coefficient of thermal expansion (α) = 23.6ppm/∘C and relative density (ρ) = 99.72%).http://www.worldscientific.com/doi/epdf/10.1142/S2010135X21500211sio2/peek compositesdielectric propertiesmechanical propertiesthermal conductivitythermal expansion
collection DOAJ
language English
format Article
sources DOAJ
author Peng Jie Xue
Shi Lin Liu
Jian Jiang Bian
spellingShingle Peng Jie Xue
Shi Lin Liu
Jian Jiang Bian
Effects of polymorphic form and particle size of SiO2 fillers on the properties of SiO2–PEEK composites
Journal of Advanced Dielectrics
sio2/peek composites
dielectric properties
mechanical properties
thermal conductivity
thermal expansion
author_facet Peng Jie Xue
Shi Lin Liu
Jian Jiang Bian
author_sort Peng Jie Xue
title Effects of polymorphic form and particle size of SiO2 fillers on the properties of SiO2–PEEK composites
title_short Effects of polymorphic form and particle size of SiO2 fillers on the properties of SiO2–PEEK composites
title_full Effects of polymorphic form and particle size of SiO2 fillers on the properties of SiO2–PEEK composites
title_fullStr Effects of polymorphic form and particle size of SiO2 fillers on the properties of SiO2–PEEK composites
title_full_unstemmed Effects of polymorphic form and particle size of SiO2 fillers on the properties of SiO2–PEEK composites
title_sort effects of polymorphic form and particle size of sio2 fillers on the properties of sio2–peek composites
publisher World Scientific Publishing
series Journal of Advanced Dielectrics
issn 2010-135X
2010-1368
publishDate 2021-08-01
description The effects of polymorphic form and particle size of SiO2 fillers on the dielectric, mechanical and thermal properties of SiO2–Polyetheretherketone (SiO2–PEEK) composites were investigated in this paper. Strong low frequency (<10Hz) Debye-like dielectric dispersions could be observed for all samples. The dielectric permittivity at high frequencies of the composite exhibits little morphology or particle size-sensitive characteristics of the SiO2 fillers. All the composites obtained in this case demonstrate the dielectric permittivities of ∼ 3.5 at high frequencies. The crystalline α-cristobalite filled composite exhibits lower dielectric loss and mechanical strength, but larger thermal expansion coefficient and thermal conductivity, compared with the similar particle sized amorphous SiO2 filled one. The crystalline α-quartz filled composite demonstrates the lowest mechanical strength and highest dielectric loss. An increase in particle size of the spherical fused silica fillers decreases the dielectric loss, while increases the thermal conductivity of the composite. The flexural strength of the composite reaches the maximum value of 113 MPa when the particle size of spherical SiO2 filler is ∼ 10μm. Particle packing by combining optimal amounts of differently sized spherical fused silica fillers leads to a substantial improvement of mechanical strength (153MPa) coupled with reasonable dielectric and thermal properties due to the synergic effect (dielectric permittivity (𝜀r) = 3.35, dielectric loss (tanδ) = 1.63 × 10−3 @10 GHz, thermal conductivity (λ) = 0.74 W/m*k (90∘C), coefficient of thermal expansion (α) = 23.6ppm/∘C and relative density (ρ) = 99.72%).
topic sio2/peek composites
dielectric properties
mechanical properties
thermal conductivity
thermal expansion
url http://www.worldscientific.com/doi/epdf/10.1142/S2010135X21500211
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AT shilinliu effectsofpolymorphicformandparticlesizeofsio2fillersonthepropertiesofsio2peekcomposites
AT jianjiangbian effectsofpolymorphicformandparticlesizeofsio2fillersonthepropertiesofsio2peekcomposites
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