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Biochar as construction materials for achieving carbon neutrality
Biochar is a waste-derived material that can sequester carbon at a large scale. The
development of low-carbon and sustainable biochar-enhanced construction materials has …
development of low-carbon and sustainable biochar-enhanced construction materials has …
A critical review of electrical-resistance-based self-sensing in conductive cement-based materials
Self-sensing refers to a structural material sensing itself. It is valuable for smart structures. It
is mainly achieved by measuring the electrical resistance of the structural material, as the …
is mainly achieved by measuring the electrical resistance of the structural material, as the …
In-situ synthesizing carbon nanotubes on cement to develop self-sensing cementitious composites for smart high-speed rail infrastructures
Self-sensing cementitious composites (SSCCs) with carbon nanotubes (CNTs) have
attracted extensive attention because of their excellent mechanical and durability properties …
attracted extensive attention because of their excellent mechanical and durability properties …
[HTML][HTML] Multifunctional asphalt concrete pavement toward smart transport infrastructure: Design, performance and perspective
Cement-asphalt pavements are extensively employed in transportation infrastructure.
Multifunctional pavement is a new paradigm that enhances pavement functionalities …
Multifunctional pavement is a new paradigm that enhances pavement functionalities …
[HTML][HTML] Self-heating characteristics of electrically conductive cement composites with carbon black and carbon fiber
This study aimed to investigate the self-heating characteristics of electrically conductive
cement composites (ECCCs) and propose an effective and affordable mix design for ECCC …
cement composites (ECCCs) and propose an effective and affordable mix design for ECCC …
Advances in multifunctional cementitious composites with conductive carbon nanomaterials for smart infrastructure
Conductive carbon nanomaterials have been extensively developed for smart cementitious
composites to gain multifunctionalities (eg self-sensing, self-healing, self-heating, and …
composites to gain multifunctionalities (eg self-sensing, self-healing, self-heating, and …
[HTML][HTML] Development of self-sensing ultra-high-performance concrete using hybrid carbon black and carbon nanofibers
The self-sensing ultra-high-performance concrete (UHPC) was developed in this study by
incorporating nano carbon black (CB) and carbon nanofiber (CNF) as additives into the …
incorporating nano carbon black (CB) and carbon nanofiber (CNF) as additives into the …
[HTML][HTML] A state-of-the-art on self-sensing concrete: Materials, fabrication and properties
Self-sensing concrete combines electrically conductive filler material and conventional
building material together, and is able to realise a sensing function that by measuring the …
building material together, and is able to realise a sensing function that by measuring the …
Flexible strain sensors fabricated using carbon-based nanomaterials: A review
T Yan, Z Wang, ZJ Pan - Current Opinion in Solid State and Materials …, 2018 - Elsevier
Flexible strain sensors have experienced growing demand due to their several potential
applications, such as personalized health monitoring, human motion detection, structural …
applications, such as personalized health monitoring, human motion detection, structural …
Compressive strength and piezoresistivity of smart cement paste modified with waste steel slag
This study intends to examine ordinary Portland cement (OPC) with a constant water-to-
cement ratio (w/c) of 0.38 and different concentrations of steel slag (SS) from 0 to 30 …
cement ratio (w/c) of 0.38 and different concentrations of steel slag (SS) from 0 to 30 …