4.7 Article

Effect of PMMA Coupling Layer in Enhancing the Ultrasonic Weld Strength of Novel Room Temperature Curable Acrylic Thermoplastic to Epoxy Based Composites

Journal

POLYMERS
Volume 14, Issue 9, Pages -

Publisher

MDPI
DOI: 10.3390/polym14091862

Keywords

ultrasonic welding; thermoplastic; thermoset; lap shear strength; interphase

Funding

  1. Nanyang Technological University, Singapore
  2. Arkema, France [RCA18/46]
  3. A*STAR under the Research Innovation Enterprise (RIE) 2020 Plan, Advanced Manufacturing and Engineering (AME) Domain-Industry Alignment Fund-Pre-positioning (IAF-PP) Polymer Matrix Composites Programme [A19C9a0044]

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This research focuses on the optimization of ultrasonic welding of carbon/epoxy composite and carbon/ Elium(R) composite using a PMMA coupling interlayer. The results show that the welding strength can be significantly improved by creating a PMMA coupling layer on the epoxy composite adherend. The welding time can be reduced to 2s compared to the 10 min required for adhesive bonding. The investigation also reveals the characteristics of the fracture surface for the configuration with maximum lap shear strength. This research presents a way to join Elium(R) with epoxy composites and has potential applications in sporting goods and consumer products.
The joining of composites can be performed in an extremely short time with more energy-efficient ultrasonic welding techniques. The current research investigated the performance optimization of ultrasonic welding of carbon/Elium (R) composite to carbon/epoxy composite using a polymethyl methacrylate (PMMA) coupling interlayer. The weld strength was quantified by static lap shear strength (LSS) testing. A new methodology was used by creating a PMMA coupling layer on the epoxy composite adherend to achieve an improved interphase and thus enhance the weld properties. The LSS of Elium (EL)-Epoxy (EP) _0.25_0.25 was found to be 190% higher compared to that of EL-EP, confirming the effectiveness of the strategy used for creating an interlayer thermoplastic coupling layer. The time required for welding was optimized to be 2s as compared to 10 min required for adhesive bonding. Scanning electron microscopic images of epoxy and PMMA/Elium matrix interphase were observed to have a rough surface and remained largely unaffected by welding. There was an interphase change further away from the interphase to a rougher texture. There was little to no effect on the penultimate layer on the weld strength, as no interphase change could be observed after welding. Fractography investigation revealed shear cusps, matrix plastic deformation, fiber imprints, fiber pull-out, and good adhesion between matrix and fiber, features seen for configuration with maximum LSS. The current research findings present a way to join Elium (R) with epoxy composites that could be used in applications that require a selective strengthening, such as in sporting goods and consumer products. Furthermore, a detailed investigation is ongoing to use different filler particles and coupling layers to reach the maximum welding performance.

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