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- Ilias Belharouak
- Sheng Dai
- Tomonori Saito
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- Vera Bocharova
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- Vlastimil Kunc
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- Xiang Lyu
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The invention alloy is a low-cost cast austenitic stainless steel alloyed to have a stable austenitic (non-magnetic) parent phase structure with enough aluminum added to enable the alloys for form protective aluminum oxide (alumina)scales at 1000C and above, and still have the
This concerns a battery electrolyte that consists of a shear thickening fluid that will stiffen upon impact forming a solid barrier that will prevent a shorting event from occurring during an accident.
This rare-earth-free red phosphor offers an environmentally friendly and low cost alternative to current LED red phosphors. Due to the physical properties of the glass, it can also be used as an encapsulant and/or lens in an LED.
This invention disclosure is supplemental to two previously reported invention disclosures: S-138,205 (ID-3569) and S-138,281 (ID-3642) (U.S. Patent Application 15/160,926 filed on May 20, 2016).
Additive manufacturing allows for the production of complex parts with minimum material waste, offering an effective technique for fabricating permanent magnets which frequently involve critical rare earth elements.
Developed a method to print bonded magnets
The experimental dental adhesive resins containing nanoparticles (either doped or co-doped) in distinct concentrations are the main objective of the present invention.
The invention describes a method for fabricating a composite phase change material (for example with compressed expanded graphite) that reduces the manufacturing time and complexity in order to produce a composite with high heat transfer performance.
This invention discloses (1) the fabrication and synthetic preparation of a novel class of supported polymer-inorganic hybrid membranes and (2) the innovative prototype membrane separation process that was demonstrated effective molecular separation of water and organic acids
Disclosed is a manufacturing method and a lightweight scalable inorganic membrane module that reduces cost of fabrication and improves performance compared to standard ceramic honeycomb type membrane structures or tube and shell configurations.