2023
DOI: 10.3390/ma16051790
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Silica-Fiber-Reinforced Composites for Microelectronic Applications: Effects of Curing Routes

Abstract: For curing of fiber-reinforced epoxy composites, an alternative to thermal heating is the use of microwave energy, which cures quickly and consumes less energy. Employing thermal curing (TC) and microwave (MC) curing methods, we present a comparative study on the functional characteristics of fiber-reinforced composite for microelectronics. The composite prepregs, prepared from commercial silica fiber fabric/epoxy resin, were separately cured via thermal and microwave energy under curing conditions (temperatur… Show more

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Cited by 5 publications
(2 citation statements)
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“…When an external electric field is applied, the molecules are polarized; that is, the symmetry of the arrangement of their charges breaks and they acquire a certain electric moment [15,19]. Epoxy oligomers are the most promising among other organic macromolecular substances and are of great interest as objects of the study of the effects of microwave electromagnetic fields due to their polarity [33,34]. However, there is no information in the literature on obtaining optimal parameters of electrical and thermal processes in the "epoxy oligomer-dispersed filler" system under microwave exposure, which confirms the relevance of solving the problem of choosing a microwave chamber design.…”
Section: Modeling Of the Process Of Oligomer Modification In Microwav...mentioning
confidence: 99%
“…When an external electric field is applied, the molecules are polarized; that is, the symmetry of the arrangement of their charges breaks and they acquire a certain electric moment [15,19]. Epoxy oligomers are the most promising among other organic macromolecular substances and are of great interest as objects of the study of the effects of microwave electromagnetic fields due to their polarity [33,34]. However, there is no information in the literature on obtaining optimal parameters of electrical and thermal processes in the "epoxy oligomer-dispersed filler" system under microwave exposure, which confirms the relevance of solving the problem of choosing a microwave chamber design.…”
Section: Modeling Of the Process Of Oligomer Modification In Microwav...mentioning
confidence: 99%
“…18 On the other hand, epoxy and its composites are extensively marketed and utilized as high-performance materials that are frequently applied in the aerospace, automotive, building, marine, adhesives, and other industries. 19 Additionally, epoxy-based fluorescent materials have demonstrated uses in the sectors of information storage, UV protection, information encryption, and anti-counterfeiting. [20][21][22] According to Xu et al, fluorescent epoxy resin can be created by incorporating 9-anthracenemethoxyl glycidyl ether (0.1 wt%) into the resin system.…”
mentioning
confidence: 99%