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1

Effect of Cooling Rate on the Precipitation Characteristics of Cast Al-Si-Cu Alloy

Okayasu M., Sahara N., Touda M.

Archives of Foundry Engineering

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2021

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Vol. 21, iss. 4

55--60

EN

The influence of the cooling rate on the extent of precipitation hardening of cast aluminum alloy (ADC12) was investigated experimentally. This study explored the cooling rate of the solidification of Cu in the α-Al phase to improve the mechanical properties of ADC12 after an aging process (Cu based precipitation hardening). The solid solution of Cu occurred in the α-Al phases during the casting process at cooling rates exceeding 0.03°C/s. This process was replaced with a solid solution process of T6 treatments. The extent of the solid solution varied depending on the cooling rate; with a higher cooling rate, a more extensive solid solution was formed. For the cast ADC12 alloy made at a high cooling rate, high precipitation hardening occurred after low-temperature heating (at 175°C for 20 h), which improved the mechanical properties of the cast Al alloys. However, the low-temperature heating at the higher temperature for a longer time decreased the hardness due to over aging.

2

The Influence of Solidification Rate on High-tin Bronze Microstructure

Bartocha D., Baron C., Suchoń J.

Archives of Foundry Engineering

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2019

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iss. 1

89--97

EN

The most important feature of bells is their sound. Their clarity and beauty depend, first of all, on the bell’s geometry - particularly the shape of its profile and the mechanical properties of alloy. Bells are the castings that work by emitting sound in as-cast state. Therefore all features that are created during melting, pouring, solidification and cooling processes will influence the bell's sound. The mechanical properties of bronze depend on the quality of alloy and microstructure which is created during solidification and depend on its kinetics. Hence, if the solidification parameters influence the alloy’s properties, how could they influence the frequencies of bell`s tone? Taking into account alterable thickness of bell's wall and differences in microstructure, the alloy's properties in bell could be important. In the article authors present the investigations conducted to determine the influence of cooling kinetics on microstructure of bronze with 20 weight % tin contents.

3

Influence of the crystallization condition on Al-Si-Cu casting alloys structure

Dobrzański L. A., Borek W., Maniara R.

Journal of Achievements in Materials and Manufacturing Engineering

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2006

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Vol. 18, nr 1-2

211--214

EN

Purpose: The purpose of this paper is to show the effect of solidification rate on microstructural features, hardness and microhardness of Al-Si-Cu alloys in as cast state. Design/methodology/approach: The main base of the paper is to compare the properties of aluminium cast alloys of ACAlSi7Cu, ACAlSi7Cu2 and ACAlSi7Cu4. Microstructural features were characterised using light optical microscopy. For rapid determination of the parameters: grains size and Secondary Dendrite Arm Spacing - SDAS were used Leica Q-WinTM computer image analyzer. Findings: Increasing the solidification rate increases refines all microstructural features grain size and SDAS. Increasing the solidification rate have an impact on the hardness and microhardness of investigated aluminium cast alloys. Research limitations/implications: In this paper influence of solidification rate on mechanical properties was described. Further investigations should be concentrate on assessment an influence of silicon contents and solidification rate on microstructural features and mechanical properties. Practical implications: The aim of this work is describe the effect of different solidification conditions on changes of microstructure and mechanical properties of ACAlSi7Cu, ACAlSi7Cu2, ACAlSi7Cu4 alloys used to produce the car engine block. Originality/value: The paper contributes to better understanding and recognition an influence of different solidification condition on microstructure and mechanical properties of aluminium alloys.

4

Rozkład wielkości wydzieleń grafitu w grubym odlewie żeliwnym

Suchoń J.

Archiwum Odlewnictwa

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2005

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R. 5, nr 15

379--386

PL

Praca przedstawia analizę rozkładu wielkości wydzieleń grafitu na przekroju grubego odlewu żeliwnego. Dokonano opisu funkcyjnego rozkładu wielkości wydzieleń grafitu w warstwach pomiarowych odległych od siebie o 5 mm. Określono jak zmieniają się na przekroju walca parametry funkcji opisującej rozkład wielkości wydzieleń grafitu. W badaniach nie stwierdzono wyraźnej zależności miedzy odległością od powierzchni (szybkością krzepnięcia) a wielkością wydzieleń grafitu, a potwierdzono wpływ na udział objętościowy grafitu.

EN

In the work analysis of graphite size distribution on cross section of thick cast iron casting has been presented. Functional description of graphite size distribution in measurement layers each 5 mm distant has been done. How change parameters of function describing graphite size distribution on cross section of cast iron roll has been determined. In researches has not been affirmed clear dependence between distance from surface (solidification rate) and size of graphite grain, however its influence on graphite volume fraction has been confirmed.

5

Prognozowanie własności walców żeliwnych na podstawie szybkości krzepnięcia

Suchoń J., Jura S.

Archiwum Odlewnictwa

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2002

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R. 2, nr 4

265--271

PL

Prezentowana praca stanowi kontynuację badań nad czynnikami wpływającymi na strukturę i własności walców żeliwnych. W artykule przedstawiono badania mające na celu wyznaczenie jak czas krzepnięcia odlewu wpływa na udział objętościowy grafitu i cementytu na przekroju walca żeliwnego oraz na jego twardość.

EN

Presented work is a continuation factors influencing on structure and properties cast iron roll researches. In paper researches which are aim to determine influence solidification time on volume fraction graphite and cementite on cross section of cast iron roll as well as its hardness have been presented.

6

Wpływ szybkości krzepnięcia na udział grafitu i cementytu oraz twardość na przekroju walca żeliwnego

Suchoń J., Jura S.

Archiwum Odlewnictwa

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2001

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R. 1, nr 2

369--378

PL

Czynnikiem decydującym o własnościach użytkowych walców jest twardość powierzchni roboczej beczki. Twardość ta jest ściśle uzależniona od struktury odlewu. Powstająca struktura zależy od składu chemicznego oraz szybkości krzepnięcia odlewu walca. W artykule przedstawiono badania mające na celu wyznaczenie jak szybkość krzepnięcia odlewu wpływa na udział objętościowy grafitu i cementytu na przekroju walca żeliwnego oraz na jego twardość.

EN

Utilitarian properties-determining factor of rolls is the hardness of face roll surface. It is closely connected with structure of casting. Structure formatting depends on chemical composition and solidification rate of roll casting. The researches, which aims were determine influences of solidification rate on graphite and cementite volume fractions on section of cast iron roll and on its hardness.