Технологія отримання пічним наплавленням композиційних шаруватих матеріалів з функціональним триботехнічним шаром, які зміцнені нанорозмірними карбідами та оксидами: Processy litʹâ, 2019, Tom 136, №4, p.35-42

Технологія отримання пічним наплавленням композиційних шаруватих матеріалів з функціональним триботехнічним шаром, які зміцнені нанорозмірними карбідами та оксидами: Processy litʹâ, 2019, Tom 136, №4, p.35-42

Received 03.06.2019 UDK: 621.74.074:669.712:546.261:531.42 It has been investigated the influence of technological regimes on the composites samples’ density with nanoscale additions of carbide and oxide particles, obtained by the developed technology. The composite layers are produced on the basis...

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Bibliographic Details
Date:2019
Main Authors: Затуловський, А. С., Щерецький, В. О.
Format: Article
Language:Ukrainian
Published: National Academy of Sciences of Ukraine, Physical-Technological Institute of Metals and Alloys of NAS of Ukraine 2019
Subjects:
наночастинки
композити
алюмінієві сплави
шаруваті матеріали
щільність
Online Access:https://plit-periodical.org.ua/index.php/plit/article/view/127
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Journal Title:Casting Processes

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Casting Processes
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Summary:Received 03.06.2019 UDK: 621.74.074:669.712:546.261:531.42 It has been investigated the influence of technological regimes on the composites samples’ density with nanoscale additions of carbide and oxide particles, obtained by the developed technology. The composite layers are produced on the basis of micro-nanogranules consists of БРАЖ 9−4 and БрОФ 10−1 alloy powders and nano-particles additions which were previously fixed onto the surface of the metallic powders. The composite mixtures are subjected to preliminary hot pressing, and the subsequent heat treatment to form a strong adhesive bond and wide transition diffusion zone between the material’s layers. For the composite layer based on БрОФ10−1 it has been investigated when the time and temperature of the furnace treatment are changed, the material’s porosity is about from 8 to 3, the optimum regime is heating up to 1100 0C without isothermal holding. In composite layer based on БРАЖ9−4 the porosity in the discovered consolidation regimes of the material varies from 4,6 to 1,3. The optimal mode of the furnace treatment is heating up to 1150 0C and the 10 minute exposure period.

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