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Algorithm for increasing the throughput on a variety of configurations of multi-laser additive systems through intelligent assignment of work to the individual lasers.
The technologies described provides methods for enhancing thermal efficiency of phase change materials.
Unlike conventional overmolding process, overmolding onto an AM part can result in highly optimized structures without significant increase in manufacturing cost.
The recycling process we proposed here is a modified hydrometallurgy method, which is efficient, facile, low- cost and environmentally friendly. Green organic acid and solvent are only two chemicals needed in the closed-loop recycling process.
Traditional thermosetting polymers are widely used due to their excellent stability and mechanical performance. However, these materials are typically derived from non-renewable petrochemical sources and are difficult to recycle, often ending up in landfills or incinerated.
In this work, we developed a strong superwood veneer plywood composite. The developed materials have a high strength of ~640 MPa in a direction, which is about 22 times than that in another direction (29 MPa).
The proposed solution provides a pathway towards synthesis and production of high conductivity materials that are needed to enable solid-state batteries.
This technology aims to provide and integrated and oxidation resistant cladding or coating onto carbon-based composites in seconds.