Effect of nano/micro-mixed ceramic fillers on the dielectric and thermal properties of epoxy polymer composites

Vaisakh, S. S.; Hassanzadeh, Manouchehr; Metz, Renaud; Ramakrishnan, S.; Chappelle, Delphine; Devaki, Sudha J.; Ananthakumar, S.

doi:10.1002/pat.3230

Cited by 27 publications

(16 citation statements)

References 24 publications

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“…Many researchers have focused on the possibility of using micro-fillers in epoxy matrices [10][11][12][13]. Epoxy is usually mixed with micro-fillers, such as silica or alumina.…”

Section: Development Of Optimum Msaementioning

confidence: 99%

Stable Failure-Inducing Micro-Silica Aqua Epoxy Bonding Material for Floating Concrete Module Connection

et al. 2015

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Abstract:Many recent studies in the development of floating concrete structures focused on a connection system made of modules. In the connection system, the modules are designed to be attached by pre-stressing (PS) while floating on the water, which exposes them to loads on the surface of the water. Therefore, the development of a pre-connection material becomes critical to ensure successful bonding of floating concrete modules. Micro-silica mixed aqua-epoxy (MSAE) was developed for this task. To find the proper MSAE mix proportion, 0% to 4% micro-silica was mixed in a standard mixture of aqua-epoxy for material testing. Also, the effect of micro-silica on the viscosity of the aqua epoxy was evaluated by controlling the epoxy silane at proportions of 0%, 5%, and˘10%. After completion of the performance tests of the MSAE, we evaluated the effect of MSAE in a connected structure. The plain unreinforced concrete module joint specimens applied with MSAE at thicknesses of 5, 10, and 20 mm were prepared to be tested. Finally, we evaluated the performance of MSAE-applied reinforced concrete (RC) module specimens connected by PS tendons, and these were compared with those of continuous RC and non-MSAE-applied beams. The results showed that the mix of micro-silica in the aqua-epoxy changed the performance of the aqua-epoxy and the mix ratio of 2% micro-silica gave a stable failure behavior. The flexural capacity of concrete blocks bonded with MSAE changed according to the bond thickness and was better than that of concrete blocks bonded with aqua-epoxy without micro-silica. Even though MSAE insignificantly increases the load-carrying capacity of the attached concrete module structure, the stress concentration reduction effect stabilized the failure of the structure.

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“…Many researchers have focused on the possibility of using micro-fillers in epoxy matrices [10][11][12][13]. Epoxy is usually mixed with micro-fillers, such as silica or alumina.…”

Section: Development Of Optimum Msaementioning

confidence: 99%

Stable Failure-Inducing Micro-Silica Aqua Epoxy Bonding Material for Floating Concrete Module Connection

et al. 2015

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“…In meso‐composites, they noticed a significant increase in both tensile strength and modulus without collapsing the optical transparency and thermal stability . In our previous work, we elaborately discussed about the role of nano/micro mixed fillers in dielectric and thermal properties of epoxy composites . We summarized that nano/micro mixed fillers effectively maintain the thermal‐interface network, which has increased its thermal conductivity without sacrificing the dielectric quality.…”

Section: Introductionmentioning

confidence: 98%

Effect of nano-modified SiO₂ /Al₂ O₃ mixed-matrix micro-composite fillers on thermal, mechanical, and tribological properties of epoxy polymers

Vaisakh

Mohammed

Hassanzadeh

et al. 2016

Polym. Adv. Technol.

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Thermo-mechanically durable industrial polymer nanocomposites have great demand as structural components. In this work, highly competent filler design is processed via nano-modified of micronic SiO 2 /Al 2 O 3 particulate ceramics and studied its influence on the rheology, glass transition temperature, composite microstructure, thermal conductivity, mechanical strength, micro hardness, and tribology properties. Composites were fabricated with different proportions of nano-modified micro-composite fillers in epoxy matrix at as much possible filler loadings. Results revealed that nano-modified SiO 2 /Al 2 O 3 micro-composite fillers enhanced inter-particle network and offer benefits like homogeneous microstructures and increased thermal conductivity. Epoxy composites attained thermal conductivity of 0.8 W/mK at 46% filler loading. Mechanical strength and bulk hardness were reached to higher values on the incorporation of nano-modified fillers. Tribology study revealed an increased specific wear rate and decreased friction coefficient in such fillers. The study is significant in a way that the design of nano-modified mixed-matrix micro-composite fillers are effective where a high loading is much easier, which is critical for achieving desired thermal and mechanical properties for any engineering applications.

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“…The withstand voltage of micro‐aluminum nitride (AlN) coated nano‐BN was increased by 256% compared to neat EP under high‐frequency voltage 22 . The micro‐alumina improves the thermal conductivity, nano‐silica reduces the dielectric constant of the composite material, whereas the micro‐nano composite material maintains a low thermal expansion coefficient 23 . The effect of micro‐nano silica on the space charge and conductivity characteristics of the epoxy composites was investigated in Reference 24.…”

Section: Introductionmentioning

confidence: 99%

Charge dynamics and thermal properties of epoxy based micro and nano hybrid composites at high temperatures

Chen

Dai

Hong

et al. 2021

J of Applied Polymer Sci

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This paper presents the effects of the filler type and testing temperature on the charge dynamics and thermal properties of the epoxy resin. The micro‐nano hybrid composites with different content of the micro and nano aluminum nitride (AlN) fillers are fabricated. The morphology of micro‐nano hybrid composites is characterized. Electrical testing and thermal analysis methods are adopted to analyze its electrical and thermal performance. The results show that the space charge accumulation is suppressed and the charge decay process is facilitated in the hybrid composites. The electrical performances of the hybrid composites are enhanced by the nano‐fillers. The apparent mobility and activation energy are decreased with nano‐AlN fillers in the composites at the high temperature. The glass transition temperature and thermal stability of the materials is improved with the nano‐AlN. A hypothetical mechanism is proposed to explain the charge carrier injection and transport of the composites at different temperatures.

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Effect of nano/micro-mixed ceramic fillers on the dielectric and thermal properties of epoxy polymer composites

Cited by 27 publications

References 24 publications

Stable Failure-Inducing Micro-Silica Aqua Epoxy Bonding Material for Floating Concrete Module Connection

Stable Failure-Inducing Micro-Silica Aqua Epoxy Bonding Material for Floating Concrete Module Connection

Effect of nano-modified SiO₂ /Al₂ O₃ mixed-matrix micro-composite fillers on thermal, mechanical, and tribological properties of epoxy polymers

Charge dynamics and thermal properties of epoxy based micro and nano hybrid composites at high temperatures

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Effect of nano/micro-mixed ceramic fillers on the dielectric and thermal properties of epoxy polymer composites

Cited by 27 publications

References 24 publications

Stable Failure-Inducing Micro-Silica Aqua Epoxy Bonding Material for Floating Concrete Module Connection

Stable Failure-Inducing Micro-Silica Aqua Epoxy Bonding Material for Floating Concrete Module Connection

Effect of nano-modified SiO2 /Al2 O3 mixed-matrix micro-composite fillers on thermal, mechanical, and tribological properties of epoxy polymers

Charge dynamics and thermal properties of epoxy based micro and nano hybrid composites at high temperatures

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Effect of nano-modified SiO₂ /Al₂ O₃ mixed-matrix micro-composite fillers on thermal, mechanical, and tribological properties of epoxy polymers