Jin Kawakita scite author profile

In recent years, coating processes based on the impact of high-velocity solid particles such as cold spraying and aerosol deposition have been developed and attracting much industrial attention. A novel coating process called 'warm spraying' has been developed, in which coatings are formed by the high-velocity impact of solid powder particles heated to appropriate temperatures below the melting point of the powder material. The advantages of such process are as follows: (1) the critical velocity needed to form a coating can be significantly lowered by heating, (2) the degradation of feedstock powder such as oxidation can be significantly controlled compared with conventional thermal spraying where powder is molten, and (3) various coating structures can be realized from porous to dense ones by controlling the temperature and velocity of the particles. The principles and characteristics of this new process are discussed in light of other existing spray processes such as high-velocity oxy-fuel spraying and cold spraying. The gas dynamics of particle heating and acceleration by the spraying apparatus as well as the high-velocity impact phenomena of powder particles are discussed in detail. Several examples of depositing heat sensitive materials such as titanium, metallic glass, WC-Co cermet and polymers are described with potential industrial applications.

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Lithium insertion and extraction kinetics of Li1+xV3O8

Kawakita

Miura

Kishi

1999

Journal of Power Sources

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Grain refinement in a single titanium powder particle impacted at high velocity

et al. 2008

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Lithium insertion behaviour of Li1+xV3O8 with different degrees of crystallinity

Kawakita

Kato

Katayama

et al. 1999

Journal of Power Sources

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Dense titanium coatings by modified HVOF spraying

Kawakita

Katayama

Fukushima

et al. 2006

Surface and Coatings Technology

103

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Jin Kawakita

Warm spraying—a novel coating process based on high-velocity impact of solid particles

Lithium insertion and extraction kinetics of Li1+xV3O8

Grain refinement in a single titanium powder particle impacted at high velocity

Lithium insertion behaviour of Li1+xV3O8 with different degrees of crystallinity

Dense titanium coatings by modified HVOF spraying

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