Researchers from Princeton University have developed a new way to make concrete more resistant to cracking by drawing inspiration from nature. By...
Vous n'êtes pas connecté
Inspired by the architecture of human bone's tough outer layer, engineers at Princeton have developed a cement-based material that is 5.6 times more damage-resistant than standard counterparts. The bio-inspired design allows the material to resist cracking and avoid sudden failure, unlike conventional, brittle cement-based counterparts.
Researchers from Princeton University have developed a new way to make concrete more resistant to cracking by drawing inspiration from nature. By...
A flexible screen inspired in part by squid can store and display encrypted images like a computer—using magnetic fields rather than electronics....
DesRosiers Automotive Consultants says August auto sales were up 5.6 per cent compared with the same time last year but predicts sales gains will be...
Recent data suggests India is projected to send 104,000 STEM students to the US by 2024, reflecting good rise in country's contribution to global...
Twenty Five Street Home Innovative residential and commercial building inspired by Manhattan’s High Line awarded Silver in Architecture, Building...
3D printing is a technology that is quite useful as it has successfully restored functionality to items that are no longer supported by manufacturers....
3D printing is a technology that is quite useful as it has successfully restored functionality to items that are no longer supported by manufacturers....
Fly Ash Market Growth Analysis Dominates the market. Fly ash as a supplementary cementitious material reduces reliance on Portland cement and lowers...
Fly Ash Market Growth Analysis Dominates the market. Fly ash as a supplementary cementitious material reduces reliance on Portland cement and lowers...
TEPCO has suspended efforts to extract highly radioactive material from Japan's Fukushima nuclear plant due to a technical problem with remote...