Structure and properties of rapidly solidified Al–Cr–Fe–Ti–Si powder alloys

Bártová, Barbora; Vojtěch, Dalibor; Verner, Jan; Gemperle, A.; Studnička, V.

doi:10.1016/j.jallcom.2004.06.049

Cited by 25 publications

(25 citation statements)

References 23 publications

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“…13 The average microhardness of the plasma-sprayed aluminium alloy (223 HVm) is nearly four times higher than that of the sprayed CP aluminium (65 HVm). In reference 9 dealing with the thermal stability of a similar alloy, a hardness of 160-195 HV is listed. Figure 9 shows micrographs of the indents.…”

Section: Hardnessmentioning

confidence: 99%

Mechanical properties of plasma-sprayed layers of aluminium and aluminium alloy on AZ 91

Kubatík¹,

Ctibor²,

Mušálek³

et al. 2017

Mater. tehnol.

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Magnesium alloys are promising materials thanks to their high specific strength and stiffness. However, their wide application is discouraged by their low resistance to wear and very low resistance to corrosion. Plasma-spraying technology makes it possible to prepare protective metal and non-metal coatings. In this work, 450 μm thick and 490 μm thick plasma-spray coatings of commercially pure (CP) aluminium and aluminium alloy AlCr6Fe2 were prepared on magnesium alloy AZ91. The adhesion strength of plasma-sprayed aluminium was about 19 MPa, while the aluminium alloy showed an adhesion strength of about 12 MPa. Plasma-sprayed coatings improved the wear resistance of the AZ91 surface up to four times. Keywords: plasma spraying of aluminum, adhesion of coating, wear, magnesium alloy AZ91 Magnezijeve zlitine so obetajo~material, zahvaljujo~njihovi veliki specifi~ni trdnosti in togosti. Vendar pa njihovo {iroko uporabo zavira majhna odpornost na obrabo in zelo slaba korozijska odpornost. Tehnologija plazemskega nabrizgavanja omogo~a izdelavo za{~itnih kovinskih in nekovinskih nanosov. V tem delu so bili pripravljeni plazemsko nabrizgani, 450 μm in 490 μm debeli nanosi komercialno~istega (CP) aluminija in aluminijeve zlitine AlCr6Fe2 na magnezijevi zlitini AZ91. Adhezijska trdnost plazemsko nabrizganega aluminija je bila okrog 19 MPa, aluminijeva zlitina je pokazala adhezijsko trdnost okrog 12 MPa. Plazemsko nabrizgani nanosi so izbolj{ali obrabno odpornost zlitine AZ91 za 4×.

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Section: Hardnessmentioning

confidence: 99%

Mechanical properties of plasma-sprayed layers of aluminium and aluminium alloy on AZ 91

Kubatík¹,

Ctibor²,

Mušálek³

et al. 2017

Mater. tehnol.

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“…The size of spheroids ranges from about 0.1 to several micrometers. Structure and phase composition of RS Al-Cr-Fe-Ti powders of similar chemical composition have already been described in detail elsewhere [20]. Therefore, only basic information is given in the following section and most of this paper is devoted to the compacted alloy.…”

Section: Structurementioning

confidence: 99%

“…At elevated temperatures, the Q phases transform to thermodynamically more stable crystalline intermetallic phases-mainly to Al 13 Cr 2 phase, due to the high Cr content in the investigated alloy. The supersaturated solid solution decomposes to produce precipitates leading to the hardening [20]. The solid-state phase transformations given above are accompanied by thermal effects which can be monitored by DSC.…”

Section: Structurementioning

confidence: 99%

“…Besides chromium, we have focused on a system alloyed with other thermally stabilizing metals-Fe and Ti [7]. In our previous reports [20,21], there are studies on structure, phase composition and thermal stability of both RS and hot extruded Al-Cr-Fe-Ti alloys having similar chemical composition except a lower Ti concentration. By increasing the Ti concentration, an improvement of the structural and mechanical stability at elevated temperatures is expected.…”

Section: Introductionmentioning

confidence: 99%

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Structural characteristics and thermal stability of Al–5.7Cr–2.5Fe–1.3Ti alloy produced by powder metallurgy

Vojtěch

Michalcová

Pilch

et al. 2009

Journal of Alloys and Compounds

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“…By rapid solidification, alloying aluminum with transition metals in amounts much exceeding their equilibrium solubility in the solid aluminum is feasible [1]. In addition, a finer microstructure (grain size of the Al matrix and size of the secondary phase/intermetallics) can be obtained which significantly affects the mechanical properties.…”

Section: Introductionmentioning

confidence: 99%

Effect of particle size on the microstructure of rapidly solidified Al–20Si–5Fe–2X (X=Cu, Ni, Cr) powder

Rajabi

Simchi

Vahidi

et al. 2008

Journal of Alloys and Compounds

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Structure and properties of rapidly solidified Al–Cr–Fe–Ti–Si powder alloys

Cited by 25 publications

References 23 publications

Mechanical properties of plasma-sprayed layers of aluminium and aluminium alloy on AZ 91

Mechanical properties of plasma-sprayed layers of aluminium and aluminium alloy on AZ 91

Structural characteristics and thermal stability of Al–5.7Cr–2.5Fe–1.3Ti alloy produced by powder metallurgy

Effect of particle size on the microstructure of rapidly solidified Al–20Si–5Fe–2X (X=Cu, Ni, Cr) powder

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