The Effect of the Melt Viscosity and Impregnation of a Film on the Mechanical Properties of Thermoplastic Composites

Kim, Jong Won; Lee, Joon Seok

doi:10.3390/ma9060448

Cited by 30 publications

(13 citation statements)

References 31 publications

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“…On the other hand, one of the main problem of thermoplastic composites is the high viscosity of the molten matrix, which leads to a difficult impregnation of the fiber bundle. Many manufacturing processes for thermoplastic composites have been developed to solve the problem, and the use of a prepreg is commonly preferred in industrial practice [ 8 ].…”

Section: Introductionmentioning

confidence: 99%

Lay-Up and Consolidation of a Composite Pipe by In Situ Ultrasonic Welding of a Thermoplastic Matrix Composite Tape

et al. 2018

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In this work, the potential of preformed thermoplastic matrix composite tapes for the manufacturing of composite pipes by filament winding assisted by in situ ultrasonic welding was evaluated. Unidirectional tapes of E-glass-reinforcedamorphous poly (ethylene terephthalate) were laid up and consolidated in a filament winding machine that was modified with a set-up enabling ultrasonic welding. The obtained composite specimens were characterized by means of morphological and dynamic mechanical analysis as well as void content evaluation, in order to correlate welding parameters to composite properties.

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Section: Introductionmentioning

confidence: 99%

Lay-Up and Consolidation of a Composite Pipe by In Situ Ultrasonic Welding of a Thermoplastic Matrix Composite Tape

et al. 2018

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“…SBS prefers presenting a uniform dispersion state in the middle of blends and the content gradually becomes lower when the position is near the surface of blends, which can be observed in SEM micrographs. In contrast, PP with lower viscosity transfers to the surface of blends more easily than SBS, which tends to form an enriched layer under the molding pressure . The huge diversity of melting properties between SBS and PP at the temperature of processing may finally result in such kind of sandwich layered co‐continuous structure.…”

Section: Resultsmentioning

confidence: 99%

A novel combination of sandwich and co‐continuous structure based on polypropylene and styrene‐butadiene‐styrene block copolymer formed with wide range of polypropylene content

Wang

Zhang

2018

J of Applied Polymer Sci

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The styrene-butadiene-styrene block copolymer (SBS)/polypropylene (PP) blends with a unique sandwich layered cocontinuous structure were prepared by melt compounding. Differing from single conventional co-continuous and sandwich structure, this structure was formed, where pure PP and co-continuous SBS/PP phase acting as the face sheets and core. Even though the volume content was 20 or 10 vol %, PP always amazingly formed a continuous phase in SBS/PP blends, whereas the morphology of SBS phase relatively changed from dispersed particles to continuous network as its content increased to 50 vol %. For immiscible SBS/PP blends, due to the huge difference of complex viscosity and surface tension between SBS and PP, a pure PP layer existed on the surface of blends which can be ascribed to the PP enrichment. Herein, the structure of blends with more than 50 vol % SBS was presented as sandwich layered co-continuous structure by combining the pure PP layer and co-continuous structure. V C 2018 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2018, 135, 46580.

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“…Nowadays particular importance is also focused on nanocomposites materials, where at least one component has to show dimension in the nano range . Different and many are the techniques used to obtain polymeric composite materials such as compression molding, autoclave and vacuum bag, preforming, filament winding, pultrusion, resin transfer molding and so on, depending on the thermo-response of the polymeric matrix used (Kim and Lee, 2016).…”

Section: Introductionmentioning

confidence: 99%

Sandwich-Type Composites Based on Smart Ionomeric Polymer and Electrospun Microfibers

et al. 2019

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Taking advance of the fiber-reinforced polymer process, commonly used in the fabrication of polymer composites, in this work we used electrospun microfibers to reinforce self-healing ionomeric polymers producing sandwich-type composites. In particular, three-layer stack with poly(lactic acid), PLA, electrospun fibers in between two layers of commercial smart polymers has been obtained based on poly(ethylene-co-methacrylic acid) (EMAA) copolymers, well-know with the tradename of Nucrel ® and Surlyn ® , both of them manufactured by Dupont TM Company. Surlyn ® is the corresponding ionomer of Nucrel ® in which the MAA groups are partially neutralized with sodium ions. In general, one of the main problems of thermoplastic composites, that provoke a lower impregnation of the fiber, is the high viscosity of the molten matrix. Therefore, in this work, we used electrospun microfibers in order to solve impregnation problem, thus considering that electrospinning process is an accessible, versatile and low-cost technique for fibers formation in the range of micron and nanometers. In order to create the sandwich-type structure, firstly, the optimization of the processing window has achieved in order to maintain the randomly oriented fiber structure on the final composites. In particular, the creation of sandwich-type structure with Surlyn ® reinforced with woven non-woven electrospun fibers based on PLA with enhanced mechanical as well as hardness and wear resistance can be used for future active packaging solutions.

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The Effect of the Melt Viscosity and Impregnation of a Film on the Mechanical Properties of Thermoplastic Composites

Cited by 30 publications

References 31 publications

Lay-Up and Consolidation of a Composite Pipe by In Situ Ultrasonic Welding of a Thermoplastic Matrix Composite Tape

Lay-Up and Consolidation of a Composite Pipe by In Situ Ultrasonic Welding of a Thermoplastic Matrix Composite Tape

A novel combination of sandwich and co‐continuous structure based on polypropylene and styrene‐butadiene‐styrene block copolymer formed with wide range of polypropylene content

Sandwich-Type Composites Based on Smart Ionomeric Polymer and Electrospun Microfibers

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