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EN
Understanding the influence of iron impurity on the formation of the structure and the properties of hypereutectic aluminum-silicon alloys are important for achieving the required quality of castings, especially those obtained from secondary materials. In the present work, the influence of different iron contents (0.3, 1.1, and 2.0 wt.%) on the crystallization process, microstructure and mechanical properties of the Al-15% Si alloy was studied. It is shown that the presence of iron impurity in the Al-15% Si alloy leads to increasing the eutectic crystallization time from 6.2 to 7.6 s at increasing the iron content from 0.3 wt.% to 1.1 wt.%, changing the structure of the alloy eutectic in the solid state. The primary silicon and β-Al5SiFe phase coexist in the structure of the Al-15% Si alloys at a temperature below 575°C in the range of iron concentrations from 0 to 2 wt.% in equilibrium conditions. In the experimental alloys structure, the primary crystals of the β-phase were metallographically detected only in the alloys containing 1.1 and 2 wt.% of iron impurity. Increase of the iron content up to 2 wt.% significantly reduces the mechanical properties of the Al-15% Si alloy due to the formation of large platelet-like inclusions of β-Al5SiFe phase.
EN
Available technical literature includes a number of reports on harmful effects connected with elevated content of iron in aluminium-silicon alloys but in case of pressure castings, alloys containing up to 2% Fe can be used. This follows from lesser susceptibility of such alloys to sticking to surfaces of metal moulds. One effect of iron presence in aluminium-silicon alloys is precipitation of iron-rich intermetallic phases. In the study reported in this paper it has been found that in a multicomponent aluminium-silicon alloy, the indentation hardness (HIT) and the elastic indentation modulus (EIT) of intermetallic phases occurring in the form of polyhedrons and/or their conglomerates, rich in aluminium, iron, silicon, manganese, and chromium, containing also copper, nickel, and vanadium, are higher than those measured for silicon crystals. This feature can be used to intentional modelling microstructure of mechanical parts which are expected to show high resistance to abrasive wear.
PL
W artykule przedstawiono wyniki badań nad otrzymywaniem warstw żaroodpornych na niklu metodą Arc-PVD z wykorzystaniem reakcji egzotermicznej pomiędzy NiAl. W wyniku tej reakcji powstaje faza NiAl. Obróbka cieplna w temperaturze 1050 stopni Celsjusza prowadzi do powstawania warstwy o grubości 50 mikrometrów i zawartości aluminium 21%wag. W następnym etapie wytwarzano bardziej złożone pokrycia NiCoCrAlY. Wykazano możliwość osadzania tego typu pokryć metodą Arc-PVD. Stwierdzono pewne zróżnicowanie pomiędzy zawartością pierwiastków w targecie a ich zawartością w pokryciu. Rozmieszczenie pierwiastków na przekroju pokrycia było równomierne. Następnie na pokrycie NiCoCrAlY nanoszono warstwę aluminium. Przez zmianę parametrów w komorze wywoływano reakcję egzotermiczną z utworzeniem fazy NiAl zawierającej Co, Cr, Y. Uzyskano w ten sposób pokrycie o składzie chemicznym niezależnym od składu chemicznego stopu. Wykazano możliwość modyfikacji pokryć itrem, jakkolwiek stwierdzono jego skłonność do segregacji. Metoda Arc-PVD stwarza możliwość otrzymywania pokryć o założonym składzie chemicznym oraz wysokiej odporności na utlenianie i hot corrosion.
EN
Investigations of obtaining high temperature coatings on the Ni base superalloys by the Arc-PVD method, using exothermic reaction processes between Ni and Al with NiAl intermetallic formation are presented in the article. By the diffusion heating at 1050 degrees centigrade NiAl high temperature diffusion coating containing 21%at.Al and 50 micrometers thick was obtained. In the next stage coatings with more complex chemical composition - NiCoCrAlY were formed. The two targets were applied for formation of the complex NiCoCrAlY coatings. The good consistence between the chemical composition of the targets and the coatings and an uniform distribution of elements in the coatings were shown. Then the surface was covered with aluminium also by the Arc-PVD method. In the vacuum chamber of the equipment a synthesis reaction between NiCoCrAlY and Al with the formation of NiAl intermetallics of high Co, Cr, Y content was initiated by the changes in process parameters. The final heat treatment of coatings was conducted in the air and vacuum at 1050 degrees centigrade. The strong segregation of yttrium in to the oxide scale in the specimens heated in the air was shown. It was possible to obtain NiAl intermetallics phase coatings modified by Co, Cr and Y by the Arc-PVD method. An example of the application of this method for the aircraft engine turbine blades was presented. Method of Arc-PVD gives the possibility chemical composition and high resistance to oxidizing and hot corrosion.
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