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Structure Investigation of Ball Milled Composite Powder Based on AlSi5Cu2 Alloy Chips Modified by Sic Particles

Śusniak, M. ; Karwan-Baczewska, J. ; Dutkiewicz, J. ; [et al.]

Polish Academy of Sciences Chancellery ; 2013

In: Archives of Metallurgy and Materials Vol. 58, No. 2 ( 2013-06-1), p. 437-441

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In: Archives of Metallurgy and Materials, Polish Academy of Sciences Chancellery, Vol. 58, No. 2 ( 2013-06-1), p. 437-441

Abstract: The paper is focused on the processing of aluminum alloy chips using powder metallurgy. Chips obtained from recycled AlSi5Cu2 alloy were ball milled with the addition of silicon carbide powder with an average size of 2μm. Mechanical alloying process was employed to obtain homogeneous composite powder. The effect of processing time (0 - 40h) on the homogeneity of the system was evaluated, as well as a detailed study of the microstructure of AlSi5Cu2 aluminum chips and SiC particles during MA was carried out. Addition of silicon carbide (10, 20wt%) to recycled aluminium chips and application of MA lead to fragmentation of the homogeneous composite powder down to particle size of about 3μm and spheroidization. The addition of hard SiC particles caused reinforcement and reduced the milling time. Higher content of silicon carbide and longer processing time allowed to obtain AlSi5Cu2/SiC powders with microhardness ∽500HV 0,025 . The results of MA were investigated with SEM, EDS, LOM, XRD and showed that relatively homogeneous distribution of SiC reinforcements in the matrix as well as grain refinement of aluminum solid solution down to 50nm can be obtained after 40h of processing.

Type of Medium: Online Resource

ISSN: 1733-3490

URL: Article

DOI: 10.2478/amm-2013-0014

Language: Unknown

Publisher: Polish Academy of Sciences Chancellery

Publication Date: 2013

detail.hit.zdb_id: 2509015-X

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Analysis of Densification Process and Structure of PM Al-Mg-Si-Cu-Fe and Al-Zn-Mg-Cu-Sn Alloys

Bidulský, R. ; Bidulská, J. ; Grande, M. Actis

Polish Academy of Sciences Chancellery ; 2014

In: Archives of Metallurgy and Materials Vol. 59, No. 1 ( 2014-03-1), p. 17-23

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In: Archives of Metallurgy and Materials, Polish Academy of Sciences Chancellery, Vol. 59, No. 1 ( 2014-03-1), p. 17-23

Abstract: The paper is focused on the role of the pressing pressure on the densification behaviour of PM aluminium alloys. Commercially aluminium based powders Al-Mg-Si-Cu-Fe and Al-Zn-Mg-Cu-Sn were used as materials to be investigated. The apparent density of the powder mixes was determined according to MPIF St. 04. A set of cylinder test specimen 55x10x10 mm 3 was uniaxially pressed in a floating hardened steel die. Compaction pressures ranged from 50 MPa up to 700 MPa. Considering the densification of metal powders in uniaxial compaction, quantification of aluminium compaction behaviour was performed. The compressibility behaviour was evaluated, considering the effect on specimens, as well as on their microstructure. The development of compressibility values with pressing pressure enables to characterize the effect of particles geometry and matrix plasticity on the compaction process.

Type of Medium: Online Resource

ISSN: 1733-3490

URL: Article

DOI: 10.2478/amm-2014-0003

Language: Unknown

Publisher: Polish Academy of Sciences Chancellery

Publication Date: 2014

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Role of Microstructure Discontinuities in the Soft Magnetic Composites with Aluminium Alloy Addition

Bidulský, R. ; Bidulská, J. ; Actis Grande, M.

Polish Academy of Sciences Chancellery ; 2013

In: Archives of Metallurgy and Materials Vol. 58, No. 2 ( 2013-06-1), p. 365-370

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In: Archives of Metallurgy and Materials, Polish Academy of Sciences Chancellery, Vol. 58, No. 2 ( 2013-06-1), p. 365-370

Abstract: The paper focuses on the effect of both the aluminium alloy addition and microstructural inhomogeneties on the magnetic behaviour of soft magnetic materials tested at low frequencies. The IIPC material (base on the commercial Somaloy 1P powder) has been blended with different amounts of commercially aluminium alloy Alumix 321 (0, 5 and 10 wt %). Specimens with a different green density were obtained by pressing at a pressure in the range from 400 to 800 MPa. Different thermal treatments (in air or nitrogen at the maximum temperature of 500ºC for 30 min) were carried out on the evaluated systems. The microstructure investigation revealed that for materials with high aluminium alloy contents, pores are located nearby or around the aluminium alloy particles. The heat treatment regime resulted in a coarse-grained structure with a small number of inclusions within the grains and at the grain boundaries. The comparison of the results indicated that the magnetic properties were considerably dependent on the microstructural inhomogeneities.

Type of Medium: Online Resource

ISSN: 1733-3490

URL: Article

DOI: 10.2478/amm-2013-0001

Language: Unknown

Publisher: Polish Academy of Sciences Chancellery

Publication Date: 2013

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Identification of the Critical Pore Sizes in Sintered and Ecaped Aluminium 6XXX Alloy

Bidulská, J. ; Kvačkaj, T. ; Pokorný, I. ; [et al.]

Polish Academy of Sciences Chancellery ; 2013

In: Archives of Metallurgy and Materials Vol. 58, No. 2 ( 2013-06-1), p. 371-375

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In: Archives of Metallurgy and Materials, Polish Academy of Sciences Chancellery, Vol. 58, No. 2 ( 2013-06-1), p. 371-375

Abstract: The main aim of this paper is to investigate, by means of comparison of experimental studies and mathematical models, the evolution of porosity as consequence of pressing, sintering and ECAPping an aluminium based powder (6xxx). After applying the compacting pressure, specimens were dewaxed in a ventilated furnace at 400º for 60 min. Sintering was carried out in a vacuum furnace at 610ºC for 30 min. The specimens were then ECAPed for 1 pass. The 2-dimensional quantitative image analysis was carried out by means of SEM and OM for the evaluation of the aforementioned characteristics. Results show the effect of processing parameters on the fracture/microstructure behaviour of the studied aluminium PM alloy. Quantitative image analysis, as well as fractographic interpretation and microstructure identification of weak sites in the studied aluminium PM alloy, provide a reliable and reproducible statistical procedure for the identification of the critical pore sizes.

Type of Medium: Online Resource

ISSN: 1733-3490

URL: Article

DOI: 10.2478/amm-2013-0002

Language: Unknown

Publisher: Polish Academy of Sciences Chancellery

Publication Date: 2013

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