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The objective of this study was to use a mixed W 30wt.%Cu composite feedstock and ascertain an optimal process that minimized composition variation by controlling particle size distribution, particle temperature, and process gas pressure.
Two types of composite feedstock powders (mechanically mixed and cryomilled) were used.
The main objectives of this study are to prepare the NiCr/CNTs composite feedstock powders and also to evaluate the properties of HVOF coatings from those powders.
This research shows that embedding fine silicon nitride particles within an oxide matrix to form composite feedstock particles enables the formation of silicon nitride composite coatings with little decomposition of the silicon nitride.
High-energy ball milling is a feasible means for the synthesis of composite feedstock powders as it provides excellent control over particle size distribution, crystal size, and the dispersion of ND agglomerates.
Solid olive mill waste is a promising composite feedstock for the biofuel industry because of its high content of both lipids and cellulosic materials.
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The prepared nano-composite feedstock exhibits spherical morphology, uniform particle size and good thermal stability, which is expected to be used directly for thermal spraying hard coating after sieving slightly.
The composite powder feedstock was prepared by: (1) mixing by ball milling NiCr powder with 0, 0.5, 1 wt% CNTs for 48 h: (2) growing carbon nanotubes on NiCr powder using chemical vapor deposition (CVD) technique at 650 °C for 60 min under ethanol atmosphere.
Functionally graded hydroxyapatite (HA)/Ti 6Al 4V coatings were produced by plasma spray process using specially developed HA-coated Ti 6Al 4V composite powders as feedstock.
The work presented in this paper examine the possibility of using the pulsed gas dynamic spraying (PGDS) process as a new production technique of Al 12Si alloy coatings and (Al 12Si + SiCp) composite coatings using feedstock powder containing 20, 40, and 60 (vol.%) reinforcement particles.
Here, we investigated short fiber (0.2 0.4 mm) reinforced acrylonitrile butadiene styrene composites as a feedstock for 3D-printing in terms of their processibility, microstructure and mechanical performance.
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