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Mold Temperature and Its Effect on Selected Properties of Cast AlSi5Cu2Mg Alloy

Širanec L., Bolibruchová D., Chalupova M.

Archives of Foundry Engineering

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2022

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Vol. 22, iss. 2

57--62

EN

The European Commission's ambitious plan to reduce CO2 emissions has a significant impact on the global automotive industry. Recent development of new diesel and petrol engines with direct injection is aimed at improving fuel efficiency while maintaining (or enhancing) engine performance. This naturally also increases the demands on the properties of the most stressed engine components (e.g., cylinder heads, engine blocks, pistons), which leads to the development of new materials. Presented work analysed the effect of different mold temperatures (60; 120; 180 °C) on mechanical, physical properties and microstructure of AlSi5Cu2Mg aluminium alloy. This alloy is currently being used for the production of cylinder head castings. The results showed that the changing mold temperature had an effect on mechanical properties (ultimate tensile strength and Young modulus values). SEM with EDX analysis of intermetallic phases revealed there were no size and morphology changes of Cu, Mg and Fe intermetallic phases when the mold temperature changed. No significant effect of different mold temperature on physical properties (thermal and electrical conductivity) and fracture mechanism occurred during experiment. Optimal combination of mechanical and physical properties of AlSi5Cu2Mg alloy was achieved using a permanent mold with temperature ranging from 120 to 180 °C.

2

Role of Metal Quality and Porosity Formation in Low Pressure Die Casting of A356: Experimental Observations

Gursoy O., Nordmak A., Syversten F., Colak M., Tur K., Dispinar D.

Archives of Foundry Engineering

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2021

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Vol. 21, iss. 1

5--10

EN

Porosity is one of the major problems in casting operations and there are several discussions in the literature about the porosity formation in aluminum castings. Bifilms are the defects that are introduced into the melt by turbulence. They can be detected with reduced pressure test and presented numerically by measuring bifilm index. The measure of bifilm index is the sum of total oxide length given in millimeters from the cross-section of reduced pressure test sample solidified under 0.01 MPa. In this work, low pressure die casting (LPDC) unit was built in an attempt to enhance the producibility rate. The unit consists of a pump housing that was placed inside the melt in the melting furnace where the pressure was applied instead of the whole melt surface. It was observed that the melt quality of A356 alloy was deteriorated over time which had led to higher porosity. This was attributed to the increased oxide thickness of the bifilm by the consumption of air in between the folded oxides. A relationship was found between bifilm index and pore formation.

3

Kształtowanie struktury i właściwości wolframowych stopów ciężkich o przeznaczeniu specjalnym

Kaczorowski M., Skoczylas P.

Problemy Mechatroniki : uzbrojenie, lotnictwo, inżynieria bezpieczeństwa

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2015

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Vol. 6, Nr 1 (19)

27-40

PL

W artykule zamieszczono wyniki badań doświadczalnych, których celem było opracowanie metody wytwarzania wolframowych stopów ciężkich (WSC), przeznaczonych na rdzenie pocisków podkalibrowych stabilizowanych brzechwowo typu APFSDS (ang. Armor Piercing Fin Stabilized Discarding Sabot). Stwierdzono, że najbardziej skuteczną metodą zwiększania właściwości wytrzymałościowych WSC jest obróbka plastyczna na zimno, prowadząca do umocnienia odkształceniowego zarówno ziaren wolframu, jak i osnowy na bazie Ni. Obróbka ta powinna być jednak prowadzona w sposób kontrolowany, ponieważ nadmierny zgniot, powodujący bardzo duże zwiększenie wytrzymałości na rozciąganie i twardości, dokonuje się kosztem znaczącego zmniejszenia wydłużenia, w szczególności odporności na obciążenia udarowe. Obróbka cieplna obejmująca wyżarzanie pod obniżonym ciśnieniem oraz szybkie chłodzenie (przesycanie) połączone z późniejszym wyżarzaniem w temperaturze w zakresie 500-800°C umożliwia dalsze zwiększenie wytrzymałości WSC, lecz efekt obróbki cieplnej jest znacznie mniej efektywny niż obróbki plastycznej na zimno.

EN

The paper presents the results of experimental studies aimed at elaboration of the manufacturing technology of tungsten heavy alloys (WSC) with high mechanical properties, dedicated for kinetic energy penetrators of armour piercing fin stabilized discarding sabot (APFSDS) ammunition. Especially, the results of mechanical properties’ investigations and structure observations of the materials strengthened by cold work and heat treatment involving supersaturation and aging are described. It was concluded that the best method of WSC strengthening is cold working, involving strain hardening both tungsten grain and Ni-based matrix. The cold working should be carried out under control because it excesses deformation causing very high strength and hardness increase is accomplished by the cost of substantial ductility, especially impact strength decrease. The solution heat treatment in vacuum furnace followed by water quenching and then isothermal aging at temperature range of 500-800°C enable further strength and hardness increase of WSC but its effectiveness is substantially less than cold work strengthening.

4

Searching for Better Properties of ADI

Krzyńska A.

Archives of Foundry Engineering

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2013

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Vol. 13, iss. 1 spec.

91--96

EN

The results of study of austempered ductile iron using different methods of austempering are presented. Except changing time, temperature of austenitizing and isothermal quenching, direct quenching, two-step quenching followed solution heat treatment (austenitizing) was proposed. The goal of this paper is to discuss the results obtained for ductile cast iron subjected two step austempering. Ultimate tensile strength, elongation, hardness, and fracture toughness, thermal stability were compared. Two-step quenching method of hardening seems to be promising.

5

Effect of the remelting on transformations in Co-Cr-Mo prosthetics alloy

Kacprzyk B., Szymczak T., Gumienny G., Klimek L.

Archives of Foundry Engineering

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2013

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Vol. 13, iss. 3

47--50

EN

In the article we were studing the impact of the remelting on transformations in Co-Cr-Mo prosthetics alloy. The TDA curves were analyzed, the microstructure was examined, the analysis of the chemical composition and hardness using the Brinell method was made. It was found that the obtained microstructure of the alloys that we studied do not differ significantly. In all four samples, microscopic images were similar to each other. The volume, size and distribution of the phases remain similar. Analysis of the chemical composition showed that all the samples fall within the compositions provided for the test alloy. Further to this the hardness of the samples, regardless of the number of remeltings did not show any significant fluctuations and remained within the error limit. After analyzing all the results, it can be concluded that the remeltings of the alloys should not have a significant impact on their properties. Secondarily melted alloys can be used for prosthetics works.

6

Dobór parametrów obróbki cieplnej stopu AISi7Mg0,3

Orłowicz W., Tupaj M., Mróz M.

Archiwum Odlewnictwa

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2006

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R. 6, nr 22

350-357

PL

W pracy badano wpływ obróbki cieplnej (przesycanie i starzenie) na twardość i mikrostrukturę stopu AISi7Mg0,3 modyfikowanego strontem. Próbki były przesycane z temperatury 540°C po różnym czasie wygrzewania i chłodzone w wodzie o temperaturze 20°C. Optymalny z uwagi na twardość okazał się czas wygrzewania 6 godzin w temperaturze 540°C. Po zastosowaniu takich warunków przesycania, próbki starzono w temperaturze 145°C, 155°C, 165°C lub 175°C w różnych czasach i następnie chłodzono w powietrzu. Najwyższą twardość uzyskano dla temperatury starzenia 175°C i czasu 8 godzin. Stwierdzono, że w trakcie wygrzewania, w miarę upływu czasu zmniejsza się ilość wydzieleń krzemu.

EN

The effect of heat treatment (solution heat treatment and aging) on hardness and microstructure of the AlSi7Mg0,3 alloy modified with strontium was studied. Samples were solution heat treated at 540°C for various time periods and cooled down in water at 20°C. The temperature of 540°C and solution heat treatment time of 6 hours appeared optimum in respect of hardness. After applying the above solution-heat-treatment conditions, the sampies were aged at 145°C, 155°C, 165°C and 175°C for various time periods and then cooled down in air. The highest hardness was achieved for aging temperature of 175°C and the time of 8 hours. Silicon precipitates were found to undergo spheroidizing in the course of solution heat treatment. Some precipitate grow with time at the expense of others. In consequence, the total number of silicon precipitates becomes reduced.

7

Zastosowanie węglika krzemu do wytopu żeliwa szarego w żeliwiaku

Dudyk M.

Krzepnięcie Metali i Stopów

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2000

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R. 2, nr 42

87--93

PL

Właściwości stopu przeznaczonego na odlewane części maszyn, można zmieniać w istotnym a zarazem wymaganym kierunku, stosując odpowiednie procesy topienia- rafinację, modyfikację itp. Zabieg modyfikacji żeliwa ma między innymi na celu zwiększenie zdolności do zarodkowania, poprzez zwiększenie liczby aktywnych zarodków grafitu, co w konsekwencji daje wzrost właściwości mechanicznych i technologicznych odlewu.

EN

Possibility of application of the metallurgical silicon carbide for the melting of grey cast iron (grade of 200 and 250) in the cupola has been presented in this paper. A carburizing influence of SiC was stated. This phenomenon has made possible for application of the cupola charges with considerable content of the steel scrap. Required mechanical properties of the melted cast iron with the costs reduction of the charge materials have been obtained. Investigations was carried out in the one of domestic iron foundry.

8

Analiza struktury i właściwości stopów Cu-Zn-Al-Si

Wodecki W.

Krzepnięcie Metali i Stopów

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2000

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R. 2, nr 42

65--71

PL

Z przeprowadzonych badań wpływu zmiennych zawartości pierwiastków na właściwości stopów na osnowie miedzi wynika, że równoczesne zastosowanie dodatków aluminium i krzemu bardzo silnie zmienia strukturę stopów i pozwala otrzymać szczególne właściwości mechaniczne i technologiczne tworzyw na osnowie miedzi. W pracy przedstawiono istotne znaczenie dodatków stopowych na kształtowanie się struktury, szczególnie wydzielanie się faz κ i δ, których ilość i kształt decyduje o właściwościach mechanicznych.