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PyroGenesis Receives New U.S. Patent for Its Innovative NexGen Plasma Atomization Metal Powder Production Technology for Use in Additive Manufacturing and 3D

PyroGenesis Receives New U.S. Patent for Its Innovative NexGen Plasma Atomization Metal Powder Production Technology for Use in Additive Manufacturing and 3D

Published Dec 18, 2023  •  7 minute read

Efficiency of Company’s Dual-Wire Feed Approach Broadens Metal Powder Market Opportunities to Include Metal Injection Molding for Consumer Electronics

MONTREAL, Dec. 18, 2023 (GLOBE NEWSWIRE) — PyroGenesis Canada Inc. (http://pyrogenesis.com) (TSX: PYR) (OTCQX: PYRGF) (FRA: 8PY), a high-tech company (the “Company” or “PyroGenesis”) that designs, develops, manufactures and commercializes advanced plasma processes and sustainable solutions which are geared to reduce greenhouse gases (GHG) and address environmental pollutants, is pleased to announce that the United States Patent and Trademark Office (“USPTO”) has issued to the Company a new U.S. Patent No. US 11839918 encompassing the Company’s NexGen™ plasma

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New-look infrared lens shines a light on future technology and manufacturing

New-look infrared lens shines a light on future technology and manufacturing

A) Top and side view of 0.8-mm thick 67-poly(Sr-CPD) polymer sheet. B) 3D-printed protective casing for FLIR camera. The 67-poly(Sr-CPD) polymer sheet was used to conceal and protect the front of the FLIR camera. C) Visible image of canine taken with FLIR E6 camera in household lighting. D) LWIR image of canine taken with no polymer sheet. E) Long-wave infrared image of canine taken through 0.8-mm thick 67-poly(Sr-CPD) polymer sheet in household lighting. F) Visible image of chickens taken in low light at night. G) LWIR image of chickens taken in low light at night with no polymer sheet. H) Long-wave infrared image of chickens taken through 0.8-mm thick 67-poly(Sr-CPD) polymer sheet in low light at night. All LWIR images were taken with a FLIR E6 thermal camera over a wavelength range of 7.5–13 µm. credits: Advanced Optical Materials (2023). DOI: 10.1002/adom.202300058

Researchers at Flinders University have discovered a new

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