Master Bond EP17TF is a one part epoxy with a paste consistency, that can be readily dispensed evenly and uniformly. It has a moderately high glass transition temperature (Tg) of 150-155 °C and a wide service temperature range from -150 °F to +550 °F.
Superior toughness and unusual electrical activity are just a few of the characteristics of the unique class of materials known as ceramics. In recent industrial applications, variable thickness ceramic thin films have been extensively utilized. The latest research published in the journal Materials has utilized in-situ time-resolved optical methods to thoroughly assess pulsed laser deposition (PLD) of ceramic layers.
The latest study published in the Journal of Volcanology and Geothermal Research aims to enhance comprehension of spectral emissivity by studying its relationship with the temperature of 3 different basalts.
In an article recently published in the journal Bioprinting, researchers discussed a crosslinking method for 3D cryoprinting and its suitability for freezing-modulated crosslinking.
In a recent article published in the open-access journal Coatings, scientists proposed a film formation model as well as a numerical simulation method based on the computational fluid dynamics (CFD) theory to predict the thickness of airless spraying robots.
In an article recently published in the journal International Journal of Biological Macromolecules, researchers discussed the development of hydrogels of chitosan and hyaluronic acid that can be photo-crosslinked and are self-repairable.
A group of researchers recently published a paper in the journal Polymers that demonstrated the feasibility of using natural fibers, specifically pineapple leaf fiber (PALF), for the fabrication of polymer composites.
In the HyPERiON CRC coordinated by the Karlsruhe Institute of Technology (KIT), researchers from KIT and the universities of Kaiserslautern, Konstanz and Stuttgart are jointly developing technology for compact high-performance magnetic resonance units. In the future, the devices could be used in the chemical and pharmaceutical industries, in medical practices or at border checkpoints.
In materials science, candidates for novel functional materials are usually explored in a trial-and-error fashion through calculations, synthetic methods, and material analysis.
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.
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