2010
DOI: 10.3103/s0967091210080085
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Formation of nanophases in electroexplosive alloying with aluminum and boron and electron-beam treatment of titanium surfaces

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Cited by 5 publications
(4 citation statements)
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“…The surface layer formed after electric explosion alloying, similarly to earlier investigations [5,6], is characterized by a high level of roughness and a great variety of structural elements (micropores and microcraters, microcracks, buildups, and particles of loosened graphite fibers). …”
Section: Materials and Procedures Of Studymentioning
confidence: 62%
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“…The surface layer formed after electric explosion alloying, similarly to earlier investigations [5,6], is characterized by a high level of roughness and a great variety of structural elements (micropores and microcraters, microcracks, buildups, and particles of loosened graphite fibers). …”
Section: Materials and Procedures Of Studymentioning
confidence: 62%
“…The electric explosion alloying mode was as follows: the absorbed power density was 6.5 GW/m 2 , the diameter of the accelerator nozzle was 20 mm, the sample distance from the nozzle cut was 20 mm, the weight of carbon fibers was 140 mg, and the powder weight was 50 mg. These conditions correspond to an average thickness of the molten layer of 30 m in [5,6].…”
Section: Materials and Procedures Of Studymentioning
confidence: 99%
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“…Treatment with a high-energy density flow of alloying elements shows a good metallic binding between the alloying zone and substrate material such that the adhesive force is comparable to the cohesive, and insignificantly changes geometric sizes of a specimen. Recent research has shown that combined modification techniques resulted in a good coating adhesion along with high wear resistance [6]. It is impossible to forecast the behavior of modified materials when using them in machine parts and mechanisms without a detailed analysis of the structuralphase state and a modified layer as a whole.…”
Section: Introductionmentioning
confidence: 99%