An investigation on the aluminum dustexplosion suppression efficiency and mechanism of a NaHCO3/DE composite powder

The work deals with topical issues such as development of composite nanostructured powder materials. The results of creating powders based on the system “aluminum–nitride of silicon” are presented. Complex investigations of the composition, structure and properties of powder materials, as well as coatings formed on their basis by supersonic cold gas dynamic spraying, were carried out. It has been found that the high-energy treatment of a powder mixture of aluminum with nanofibers of silicon nitride provides the formation of a composite powder in which a new phase of the Si(1-х)AlхO(1-х)Nх type is formed, which additionally increases the hardness in the coatings to be sprayed.

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Technology for the production of nanostructured coatings from nanoparticles of tungsten carbide and metal chromium

Voprosy Materialovedeniya ◽

10.22349/1994-6716-2020-102-2-117-124 ◽

2020 ◽

pp. 117-124

Author(s):

T. I. Bobkova ◽

R. Yu. Bystrov ◽

A. A. Grigoriev ◽

E. A. Samodelkin ◽

B. V. Farmakovsky

Keyword(s):

Tungsten Carbide ◽

Composite Powder ◽

Nanostructured Coatings ◽

Powder Materials ◽

Metallic Chromium ◽

Complex Processes ◽

Functionally Gradient ◽

High Microhardness ◽

Gradient Coatings ◽

Technological Methods

This paper presents results of a study of complex processes for producing composite powder materials from tungsten carbide and metallic chromium. Technological methods for the formation of functionally gradient coatings with high microhardness up to 426 HV through microplasma spraying technology are disclosed.

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Preparation of MCrAlY–Al2O3 Composite Coatings with Enhanced Oxidation Resistance through a Novel Powder Manufacturing Process

Journal of Thermal Spray Technology ◽

10.1007/s11666-019-00830-y ◽

2019 ◽

Vol 28 (3) ◽

pp. 433-443 ◽

Cited By ~ 9

Author(s):

Mingwen Bai ◽

Bo Song ◽

Liam Reddy ◽

Tanvir Hussain

Keyword(s):

Oxidation Resistance ◽

Manufacturing Process ◽

Composite Powder ◽

Composite Coatings ◽

Submicron Particles ◽

Second Phase ◽

Mcraly Coatings ◽

Powder Feedstock ◽

Enhanced Oxidation ◽

Powder Manufacturing

Abstract MCrAlY–Al2O3 composite coatings were prepared by high-velocity oxygen fuel thermal spraying with bespoke composite powder feedstock for high-temperature applications. Powder processing via a suspension route was employed to achieve a fine dispersion of α-Al2O3 submicron particles on the MCrAlY powder surface. This was, however, compromised by ~ 50% less flowability of the feedstock during spraying. Nevertheless, the novel powder manufacturing process introduced in this study has shown potential as an alternative route to prepare tailored composite powder feedstock for the production of metal matrix composites. In addition, the newly developed MCrAlY–Al2O3 composite coatings exhibited superior oxidation resistance, compared to conventional MCrAlY coatings, with the formation of nearly exclusively Al2O3 scale after isothermal oxidation at 900 °C for 10 h. The addition of α-Al2O3 particles in the MCrAlY coatings as a second phase was found to have promoted the formation of YAG oxides (YxAlyOz) during spraying and also accelerated the outwards diffusion of Al, which resulted in enhanced oxidation resistance.

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