Researchers from the Tokyo Institute of Technology have unveiled the formation mechanisms of various phases, including intermetallic compounds (IMCs), within nickel–tungsten (Ni–W) alloys. Their insights, published in the Journal of Alloys and Compounds, offer valuable guidance for enhancing the longevity and effectiveness of Ni–W alloys, crucial for military applications and beyond.
A scientist at the University of Nebraska is searching for solutions that could result in the creation of novel materials and applications.
This study explores the use of modified chitosan with vinyl/silane monomers for enhanced oil recovery in acidic reservoirs, demonstrating superior performance in laboratory and field-scale evaluations.
A novel transparent material made from natural bamboo has been developed by Central South University of Forestry and Technology (CSUFT) faculty members Yiqiang Wu and Caichao Wan and team.
Specialised Imaging reports that its Kirana ultra-high speed video camera has been chosen by researchers at the University of Dresden (Germany) following a head-to-head comparison against alternative commercially availab...
SHENMAO Technology is pleased to offer its PF606-P276 Ultra-Low Void No-Clean Zero-Halogen Lead-Free Solder Paste.
Technidrive, a bespoke electric motor and gearbox provider, has developed a drive solution for heavy-duty conveyors that minimises costs while maximising efficiency and uptime.
OMNIS, the modular platform for chemical analysis from Metrohm becomes ever more powerful: With the launch of the OMNIS Coulometer, users of OMNIS have now the complete scope of titration methods at their disposal – from pH measurement to potentiometric, photometric, and thermometric titration to volumetric Karl Fischer titration and coulometry for water determination in the trace level range.
Certain materials are transparent to light of a specific frequency. Despite earlier notions, electrical currents can be created when such light is shone on them.
Researchers have developed a smart, reusable adhesive. The breakthrough could lead to the creation of advanced reusable superglues and grippers capable of handling heavy loads on both rough and smooth surfaces.
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