Wyniki wyszukiwania - BazTech

Ograniczanie wyników

Znaleziono wyników: 2

Liczba wyników na stronie

Wyniki wyszukiwania

Sortuj według:

Ogranicz wyniki do:

Analysis of advanced additive technology in direct metal laser sintering and precision casting method

Robl J., Sedlák J., Pokorný Z., Ňuksa P., Barényi I., Majerík J.

Bulletin of the Polish Academy of Sciences. Technical Sciences

2020

Vol. 68, nr 1

109--118

The paper deals with analysis of samples made of Inconel 718 nickel superalloy, produced using direct metal laser sintering (DMLS), known as “sintering”, and precision casting technologies. The theoretical part is focused on the characteristics of producing samples of the nickel superalloy by modern additive methods (those for processing metallic materials) and by the conventional technology of precision casting. The practical part involves the investigation of the mechanical properties and texture of the surfaces of the tested samples. A significant part of this study is devoted to analysis of fracture surfaces and EDX experimental testing of TEM lamella by using of electron microscopy methods. The conclusions of this paper include a discussion, evaluation and explanation of both technologies applied on tested samples. Finally, the main benefits of using modern additive technologies in the design and production of heat-resistant components of turbochargers are discussed.

AFM and nanoindentation study of selected aluminium alloys

Barényi I., Eckert M., Majerík J., Bezecný J.

Zeszyty Naukowe Politechniki Rzeszowskiej. Mechanika

2018

z. 90 [298], nr 2

143--152

The structure of EN AW 6082 aluminium alloy is investigated in this paper. Atom force microscopy (AFM) is used to identify present phases and their morphology. AFM enabled to observe even the precipitates, their size and distribution. In the next step, some structure constituent described by AFM were evaluated by the nanoindentation process to determine their local mechanical properties, such as nanohardness and reduced modulus.

W artykule opisano strukturę stopu aluminium AW 6082. Mikroskopia sił atomowych (AFM) służy do identyfikacji obecnych faz i ich morfologii. AFM umożliwił obserwację nawet wtrąceń, ich wielkości i rozmieszczenia. W następnym etapie niektóre składniki struktury opisane przez AFM zostały ocenione w procesie nanoindentacji w celu określenia ich lokalnych właściwości mechanicznych, takich jak nanotwardość i zredukowany moduł.