Nobuyuki Miyagi scite author profile

Nobuyuki Miyagi

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21Citation Statements Given

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On-demand gold laser-plating onto stainless steel for electrical contacts

Yamaguchi

Miyagi²,

Mita

et al. 2016

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The present study discusses the formation of a conductive film from noble metal nanoparticles onto stainless steel substrate for electrical components, such as connectors, where conventional electroplating is not applicable. The proposed "laser plating" method consists in on-demand dispensing with nanoparticle paste followed by a short-time preheating and laser sintering. The aims are fourfold: to establish sintering technology for gold nanoparticles placed on an 18%Cr-8%Ni stainless steel substrate covered with a passivation film, to characterize the laser-sintered film, to discuss the laser sintering mechanism, and to examine applicability to industry. The major results obtained are as follows: the laser sintering formed a gold film with a diameter of 0.8 mm and a thickness of 0.3-1.0 μm on the stainless steel substrate without any surface pretreatment; a laser with a wavelength of 915 nm enabled instantaneous sintering within one second in air; the laser-sintered gold nanoparticle film had such a high adhesion to the substrate that no separation occurred after 90°-0.5R bend-peel tests; the high adhesion was attributed to interdiffusion of gold, iron, chromium and nickel in the course of sintering; a relatively high-preheat temperature around 523 K for 60 s produced a paste surface with a suitable absorbance of the infrared laser; a primary sintering of the preheated gold nanoparticles with a small amount of solvents, followed by an auxiliary sintering from the substrate side made possible an efficient sintering of the nanoparticles as well as high adhesion to the stainless steel substrate with a high thermal conductivity; the laser-sintered gold film possesses such a good electrical property.

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Selective Laser Sintering with Gold Nanoparticles on Stainless Steel for Electrical Components

Yamaguchi¹,

Miyagi²,

Mita³

et al. 2016

Transactions of The Japan Institute of Electronics Packaging

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The present study discusses the formation of a conductive film from noble metal nanoparticles on a stainless steel substrate for use in the manufacture of electrical components, such as connectors. The proposed method consists of ondemand dispensing with nanoparticle paste followed by a brief preheating and laser sintering. The major results obtained are as follows: the laser sintering formed a gold film with a diameter of 0.8 mm and a thickness of 0.3-1.0 μm on the stainless steel substrate without any surface pretreatment; a laser with a wavelength of 915 nm enabled instantaneous sintering within one second in air; the laser-sintered gold nanoparticle film had such a high adhesion to the substrate that no separation occurred after 90°-0.5R bend-peel tests; the high adhesion was attributed to the interdiffusion of gold, iron, chromium and nickel in the course of sintering; primary sintering of the preheated gold nanoparticles at 523 K for 60 s with a small amount of solvents, and secondly sintering from the substrate side proceed simultaneously, making possible efficient sintering of the nanoparticles as well as high adhesion to the substrate; the laser-sintered gold film possessed a very good electrical property.

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Nobuyuki Miyagi

On-demand gold laser-plating onto stainless steel for electrical contacts

Selective Laser Sintering with Gold Nanoparticles on Stainless Steel for Electrical Components

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