Carbon-based nanoparticles have recently generated a great attention, as they could create
polymer nanocomposites with enhanced transport properties, overcoming some limitations …

Piezoresistivity is an electromechanical effect characterized by the reversible change in the
electrical resistivity with strain. It is useful for electrical-resistance-based strain/stress …

Previous and current research on piezoresistivity of polymer composites filled with carbon
nanostructures is reviewed. The review covers the use of the coupled electro‐mechanical …

Relative to the conventional metals used in structures, epoxy-based composites have poor
fracture toughness properties. This has long been a weak link when using epoxy composites …

A polydimethylsiloxane (PDMS)/carbon nanofiber (CNF) nanocomposite with piezoresistive
sensing function is presented. Excellent electrical conductivity is achieved by dispersing the …

In this work, the stochastic microstructure of simulated CNT-polymer composite statistical
volume elements (SVEs) is quantified using two-point correlation functions. The two-point …

Carbon nanotube (CNT) networks and carbon fibers have been investigated for in situ
sensing of micro-scale damage. The electrical resistance change due to transverse matrix …

Prediction of in-situ strain sensing efficiency of self-sensing cementitious composites using
machine learning (ML) requires a large, representative, consistent, and accurate dataset …

In this work, a coupled electromechanical peridynamics formulation is presented which is
used to study the electrical and piezoresistive response of a carbon nanotube (CNT) …

In the present work, a new form of a Halpin–Tsai (H–T) micromechanical model is proposed
to characterize the elastic modulus and tensile strength of carbon nanotube (CNT) …