A research team has created a bulk copper-based alloy that, to date, has the greatest tensile elastic strain at room temperature.
In an article recently published in the journal Advanced Engineering Materials, researchers discussed the multi-inks 3D extrusion for sinter-based additive manufacturing of graded porous titanium scaffolds.
Microban International is proud to present LapisShield™, a novel, non-heavy-metal technology designed to seamlessly integrate antimicrobial functionality into any water-based coating formulation.
Lighter vehicles can travel farther on less energy, driving demand for lighter automotive components. High-performance aluminum alloys, such as alloy 7075, are among the lightest and strongest options, but they require energy-intensive production that raises costs and therefore limits their use.
In an article recently published in the journal Additive Manufacturing, researchers discussed the mechanical characteristics and microstructure of a laser-fabricated, crack-free Al-Cu-Mg-Y alloy.
Researchers discussed the utility of de-alloyed water- and air-sensitive nanoporous metals and metalloids for emerging energy applications in a new study.
A team of Spanish researchers have applied the 5S production methodology to provide a framework for metal welding processes, with the aim of improving process efficiency, weld quality, sustainability, and worker safety. They have published their findings in a new paper in the journal Sustainability.
Master Bond EP4G-80Med is a one part epoxy designed for use in the assembly of medical devices. This system is formulated with a non-metallic, graphite filler, which leads to good thermal and electrical conductivity. It possesses a thermal conductivity of 1.44-1.73 W/(m•K) and a volume resistivity of 50-100 ohm-cm.
Metals typically soften as they expand when exposed to heat, but a research team directed by a City University of Hong Kong (CityU) scholar and other scientists have discovered a one-of-a-kind super-elastic alloy that can preserve its stiffness even upon being heated to 1,000 K (726.85 °C) or above, with almost zero energy dissipation.
A new study posted to the preprint* server Research Square, in submission to Scientific Reports, has presented organic residue analysis of ten Bronze Age daggers from archaeological digs at Pragatto, Italy.
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