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Influence of variable casting wall thickness and shell mold material and its thermal properties on secondary dendrite arm spacing in IN 713C superalloy castings

Szczotok A.

Inżynieria Materiałowa

2016

Vol. 37, nr 5

217--222

The results of microstructure investigations of IN 713C superalloys obtained as thin walled‚ wedge’ castings from three kinds of shell molds are presented. Light microscopy, scanning electron microscopy observations and secondary dendrite arm spacing (SDAS) measurements were used to determine the differences in the IN 713C castings obtained using three kinds of shell mold materials. The effects of major constituents of the three shell molds: zirconium silicate ZrSiO4, aluminosilicate mAl2O3 . nSiO2 and SiC-based system on the SDAS in the investigated castings of the IN 713C superalloy are described. The results confirm that crystallization conditions (the variable wall thickness of the casting and material of the shell) of the IN 713C castings influence their microstructure. The increased SiC content in the shell molds has an effect on the crystallization process kinetics as indicated by the changes in the observed secondary dendrite arm spacing.

Powszechnie wiadomo, że parametry procesu odlewania mogą wpływać na mikrostrukturę i właściwości mechaniczne nadstopów na osnowie niklu. Zmniejszenie odległości między ramionami wtórnymi dendrytów (SDAS) prowadzi do zredukowania porowatości i obszarów eutektyki w odlewie. Celem przeprowadzonych badań było ustalenie wpływu grubości ścianki odlewu oraz składu materiału i właściwości cieplnych formy ceramicznej na odległości między ramionami wtórnymi dendrytów w odlewach z nadstopu IN 713C.

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

2006

Vol. 18, nr 1-2

211--214

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.