Carbon nanotube (CNT) is one of the most commonly employed functional nanomaterials in
self-sensing cementitious composite due to its excellent stress sensitivity, high strength, and …

Plain asphalt typically is an insulator to the flow of electric current. It can be modified to
conductive asphalt by adding various recyclable and environment-friendly conductive …

This paper has focused on the effect of basalt and glass fibers in HMA in terms of crack
formation and damage mechanisms. The experimental study was carried out under two …

In contrast to the traditional methods of directly adding conductive fillers to the cement matrix
in the development of heatable conductive concrete, radiation shielding and smart sensing …

Smart ultra-high performance concretes (S–UHPCs) with high self-stress sensing abilities
have great application potential for monitoring the loss of prestressing stress in steel …

Endowing asphalt concrete with stable conductive properties is beneficial to develop smart
pavement such as self-sensing, self-healing, self-deicing and snow-melting pavement, thus …

This study investigates the effects of temperature, relative humidity, and storage age on the
electrical properties of smart ultra-high performance concretes (UHPCs) with different …

This study aims to develop electrically conductive asphalt (ECA) mixtures utilizing carbon
fiber and/or graphite for potential snow/ice-melting pavements without compromising the …

Improving the properties of soft subgrade soils greatly helps in construction of strong and
economical pavements. For this purpose, there are many traditional additives. However …

The arrangement of carbon fibers in the cement matrix affects the stability and sensitivity of
the composite. This study investigated the effects of bath pH and electroless plating time on …