Improving the Absorption Efficiency in CO2 Laser Melting of Aluminum Alloy by Coating the Transparent Film

A transparent absorbent for a laser, perhydropolysilazane (PHPS) films were prepared on an A 1100 aluminum alloy using a dip-coating technique with a PHPS-xylen solution. After dip-coating, the films were dried at 423K for 1.8ks. PHPS films became transparent, and the FTIR spectra of the films showe...

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Veröffentlicht in:	Hyōmen gijutsu 2000/02/01, Vol.51(2), pp.206-209
Hauptverfasser:	NISHIDA, Norihide, KUNITSUGU, Shinsuke, KANADANI, Teruto, NOGAMI, Teruo, OOIE, Toshihiko, YONEDA, Masafumi
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Sprache:	eng ; jpn
Schlagworte:	Aluminum CO2 Laser Working Polysilazane Transparent Absorbent
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container_title	Hyōmen gijutsu
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creator	NISHIDA, Norihide KUNITSUGU, Shinsuke KANADANI, Teruto NOGAMI, Teruo OOIE, Toshihiko YONEDA, Masafumi
description	A transparent absorbent for a laser, perhydropolysilazane (PHPS) films were prepared on an A 1100 aluminum alloy using a dip-coating technique with a PHPS-xylen solution. After dip-coating, the films were dried at 423K for 1.8ks. PHPS films became transparent, and the FTIR spectra of the films showed a absorption peak at the wavelength of a CO2 laser due to Si-N bond. Using a CO2 laser with an output of 1kW, 0.12mm depth of molten zone was obtained for the PHPS film coated samples. The melted zone was not observed for untreated samples using a laser output of 3kW. Film thickness with sufficient absorbability was about 1μm.
doi_str_mv	10.4139/sfj.51.206
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subjects	Aluminum CO2 Laser Working Polysilazane Transparent Absorbent
title	Improving the Absorption Efficiency in CO2 Laser Melting of Aluminum Alloy by Coating the Transparent Film
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