Harry Frederick scite author profile

This manuscript explores the disassembly potential of ultrasonically welded thermoplastic composite joints for reuse or recycling through resistance heating via a nanocomposite film located at the welded interface. Nanocomposite films containing multi-walled carbon nanotubes (MWCNTs) were characterized for thermo-electrical behavior to assess self-heating. It was generally observed that maximum temperature increased with MWCNT and film thickness. To demonstrate potential for disassembly, glass fiber/polypropylene adherends were welded with nanocomposite films. Shear stress during disassembly was measured for three initial adherend’s surface temperatures. It was found that the required tensile load decreased by over 90% at the highest temperatures, effectively demonstrating the potential for disassembly via electrically conductive films. Fracture surfaces suggested that disassembly was facilitated through a combination of nanocomposite and matrix melting and weakened fiber–matrix interface. Limitations, such as slow heating rates and the loss of contact at the interface, imply that the method could be more suited for recycling, instead of repair and reuse, as the heat-affected zone extended through the adherends’ thickness at the overlap during heating.

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Characterization of Multifunctional MWCNT/PP Nanocomposite Films for Use in Structural Health Monitoring and Disassembly of Ultrasonically Welded Single Lap Joints

Frederick¹

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Keats and Kahn’s Roentgen Atlas of Skeletal Maturation

Bishop¹,

Frederick²

2009

Academic Emergency Medicine

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Harry Frederick

Multifunctional films for thermoplastic composite joints: Ultrasonic welding and damage detection under tension loading

Disassembly Study of Ultrasonically Welded Thermoplastic Composite Joints via Resistance Heating

Characterization of Multifunctional MWCNT/PP Nanocomposite Films for Use in Structural Health Monitoring and Disassembly of Ultrasonically Welded Single Lap Joints

Keats and Kahn’s Roentgen Atlas of Skeletal Maturation

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