Researchers observe stick-slip phenomenon in carbon nanotube fibers

The shapes of straightforward polyatomic molecules reminiscent of carbon dioxide and methane are characterised by a particular symmetry relying on the style of linking of the atoms. Nano- to micrometer-sized particles that mimic the shapes of such polyatomic molecules are known as colloidal molecules, which might kind gentle supplies. Nonetheless, conventionally synthesizing colloidal molecules with such particular symmetry requires a multi-step artificial course of.

Carbon nanotubes (CNTs) are recognized for his or her distinctive mechanical energy and have good potential for software as impact-resistant supplies and building provides within the aerospace trade. For sensible viability, CNT-based supplies should obtain a breaking energy of no less than 10 GPa, which is equal to the energy required to help 10 kg weight utilizing a fiber as skinny as a strand of human hair. Nonetheless, when CNTs are spun into fibers, intermolecular slippage considerably reduces their energy to roughly 1 GPa.

Researchers at College of Tsukuba investigated the mechanism underlying this slipping phenomenon from experimental and theoretical views. For the primary time, they noticed the stick‒slip phenomenon—a repetitive transition between static and dynamic friction—occurring between CNT molecules. The analysis is revealed within the journal Carbon.

The outcomes revealed that this phenomenon significantly influences intermolecular slipping. Their findings additionally reveal that electron irradiation enhances the energy of those CNTs by selling the formation of stronger bonds between molecules, leading to extra strong CNT bundles.

These findings counsel that nitrogen doping mixed with electron irradiation is an efficient technique for fabricating high-strength CNT-based supplies. This breakthrough is anticipated to pave the way in which for brand spanking new impact-resistant supplies and light-weight, high-strength structural parts, contributing to the manufacturing of safer and lighter autos and extra environment friendly infrastructure sooner or later.