A. Niwa scite author profile

The deposition behavior of sprayed individual metallic particles on the substrate surface in the cold spray process was fundamentally investigated. As a preliminary experiment, pure copper (Cu) particles were sprayed on mirror-polished stainless steel and aluminum (Al) alloy substrate surfaces. Process parameters that changed systematically were particle diameter, working gas, gas pressure, gas temperature, and substrate temperature, and the effect of these parameters on the flattening or adhesive behavior of an individual particle was precisely investigated. Deposition ratio on the substrate surface was also evaluated using these parameters. From the results obtained, it was quite noticeable that the higher substrate temperature brought about a higher deposition rate of Cu particles, even under the condition where particles were kept at room temperature. This tendency was promoted more effectively using helium instead of air or nitrogen as a working gas. Both higher velocity and temperature of the particles sprayed are the necessary conditions for the higher deposition ratio in the cold spraying. However, instead of particle heating, substrate heating may bring about the equivalent effect for particle deposition.

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Development of 15CrODS ferritic steels for over 1273K service

Sawazaki

Ukai

Sugino

et al. 2013

Journal of Nuclear Materials

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Effect of Fine Particle Bombardment Treatment on Tribological Properties and Adhesion of DLC Film Coated on SCM440 Steel

Kameyama¹,

Niwa²,

Komotori³

2007

J. Soc. Mat. Sci., Japan

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High-temperature bending fatigue properties of oxide dispersion-strengthened platinum–rhodium alloy under high axial stress

Niwa¹,

Akita²,

Enomoto

et al. 2020

International Journal of Fatigue

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High temperature fatigue properties of Oxide-Dispersion-Strengthened Platinum-10% rhodium alloys subjected to axial force and bending stress

Aoyama

Enomoto

Niwa³

et al. 2018

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A. Niwa

Effect of Substrate Temperature on Deposition Behavior of Copper Particles on Substrate Surfaces in the Cold Spray Process

Development of 15CrODS ferritic steels for over 1273K service

Effect of Fine Particle Bombardment Treatment on Tribological Properties and Adhesion of DLC Film Coated on SCM440 Steel

High-temperature bending fatigue properties of oxide dispersion-strengthened platinum–rhodium alloy under high axial stress

High temperature fatigue properties of Oxide-Dispersion-Strengthened Platinum-10% rhodium alloys subjected to axial force and bending stress

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