Thermoanalytical studies of the ceramic-metal composites obtained by gel-centrifugal casting

Zygmuntowicz, Justyna; Wiecińska, Paulina; Miazga, Aleksandra; Konopka, K.; Szafran, M.; Kaszuwara, W.

doi:10.1007/s10973-017-6647-z

Cited by 7 publications

(6 citation statements)

References 35 publications

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“…9 b. Such voids in addition to presence of cracks within the coating layer acts as transport mechanism channel for oxidation of NiO and subsequent transformation into NiAl2O4 spinel as detected by EDS analysis [30]. The porous nature of NiAl2O4 spinel could further act as sites for internal oxidation and degradation of the aluminum layer as observed in Fig.…”

Section: Effect Of Aluminum Coatings On Oxidation Mechanism Of In 718mentioning

confidence: 88%

Performance Characteristics of Hot-dip and Plasma Spray Aluminide Coated Nickel-Based Superalloy 718 under Cyclic Oxidation in Water Vapour

Koech

Wang

2019

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Aluminium coating due to its ability to form stable alumina oxide scale are commonly used to protect materials such as inconel 718 superalloys at high operational temperatures. Relevant properties of the oxide scale formed; growth rate and coating adherence is not only determined by the composition of the coating material used but is also influenced by the coating manufacturing process and the test condition. In the present work, effect of water vapour and thermocycling commonly prevailing on the morphology and composition of the alumina scales formed during high temperature oxidation was studied using hot-dip and plasma spray aluminium coatings. The coatings highly improved oxidation resistance of the alloy substrate with hot dip coating showing the lowest mass change compared to plasma spray. The results also show that the hot-dip coating has an inherently different morphology and growth rate compared to those formed on the plasma spray coating. High rate of oxidation, spallation and large voids with little protective alumina oxide layer were observed in moist condition test especially in plasma spray coatings.

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Section: Effect Of Aluminum Coatings On Oxidation Mechanism Of In 718mentioning

confidence: 88%

Performance Characteristics of Hot-dip and Plasma Spray Aluminide Coated Nickel-Based Superalloy 718 under Cyclic Oxidation in Water Vapour

Koech

Wang

2019

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“…Transitions from RT up to approximately 450°C are associated with the H 2 O and CO 2 release (Fig. 10) [1,41,42], while the following endothermic transition is due to v-AlO(OH) transformation and water release [33]. The forth, weak endothermic event above 1000°C is related to particle growth and/or further (t ?…”

Section: Nanopowders Synthesis and Characterisation Methodsmentioning

confidence: 99%

“…Obtained results from Scherrer equations are in agreement with particle size calculated using Eq. (1).…”

Section: Nanopowders Synthesis and Characterisation Methodsmentioning

confidence: 99%

“…Chemical bonding of -OH groups and physisorption of H 2 O on the surface depend on material composition and its particle size. Their presence may influence densification and sintering processes [1]. Nanomaterials used in biomedical applications, especially the ones in implant and prosthetics applications area received a lot of attention in recent years [2].…”

Section: Introductionmentioning

confidence: 99%

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Thermal and physical properties of ZrO2–AlO(OH) nanopowders synthesised by microwave hydrothermal method

Koltsov

Prześniak-Welenc

Wojnarowicz

et al. 2017

J Therm Anal Calorim

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Industrially relevant nanopowder was synthesised by microwave hydrothermal synthesis to obtain wellcontrolled composition (ZrO 2 -AlO(OH) system) which was found to determine a number of physical and thermal characteristics. This study reports variation of particle size, density, specific surface area (SSA BET ), as well as thermal behaviour of nanopowder mixtures of ZrO 2 -AlO(OH) in the whole range of compositions. It was found that the onset temperature (T on ) of physically and chemically bounded water desorption depends on the Al 3? /or AlO(OH) content. The lower content of Al 3? in the ZrO 2 -AlO(OH) system, the higher T on of physically bound water desorption. There are three distinct temperature regions for water decomposition for nanomaterials investigated in air (at approximately 50, 250 and 450°C). These temperature ranges depend on particle size and chemical composition of ZrO 2 -AlO(OH) nanopowders. Materials were divided into three groups characterised by different properties: (1) ZrO 2 with 2-12% of Al 3? , where particle sizes are from 4 to 8 nm, (2) ZrO 2 with 30-67% of AlO(OH), where particle sizes are from 10 to 13 nm, and (3) ZrO 2 with 80-99% of AlO(OH), where particle sizes are from 13 to 23 nm. AlO(OH) content determines thermal and physico-chemical properties of synthesised ZrO 2 -AlO(OH) nanopowders.

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“…In recent years, the use of gel casting method for the production of various composites as well as porous products has been considered during various researches such as production of porous alumina composites containing nickel nanoparticles with nickel nitrate as a source of nickel and hydrogen gas as the reducing agent [5], porous alumina-nickel composite as a catalyst with nickel oxide as a source of supply of nickel and CO gas as a reducing agent [17], porous silicon carbide with carbon in resin as reducing agent and source of carbon and SiO as source of Si [17], alumina composite containing tungsten nanoparticles by gel casting method and tungsten in situ reduction [19], alumina-nickel composite with complex shapes by gel casting and using 3D printer technology [20], alumina-nickel composite by gel casting method and centrifugal method for fabrication of parts with high density and homogeneous properties [21], alumina-nickel layer composites by casting alumina gel between tungsten metal plates [22], making transparent alumina plates by gel casting with pressure control [23]. The study of the effect of thermal regime and atmosphere on the properties of alumina-nickel composite made of nickel powder by sol method was investigated by Zygmuntowicz et al [24]. In addition, magnesium aluminate spinel with alumina and magnesium oxide by gel casting method [25], use of presinter to improve the mechanical properties of alumina based composites made by gel casting [26], and recently, making high porosity alumina with suitable strength by gel casting method and optimizing the production process were invesitgated [27].…”

Section: Introductionmentioning

confidence: 99%

Preparation of Porous Alumina/Nano-Nickel Composite by Gel Casting and Carbothermic Reduction

Hosseini

Mollazadeh

Khaki

et al. 2022

IJE

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Effects of dispersant (Tri polyphosphate sodium) amount on gel viscosity, mechanical activation of raw materials, raw materials mixture composition, and reduction atmosphere on the prepared composites and NiO reduction mechanism were investigated. It was found that 2.5 wt % dispersant is an optimum amount for a gel suspension with 50 V% of solid consisting of alumina, graphite, and nickel oxide. XRD results of reduced and sintered product (at 1200-1500 °C) showed that alumina, nickel, and nickel aluminate spinel are present in the prepared composite. The porosity of the composite made with 12 h ball milledalumina was 48%, while it was 64 % in the sample made with 20 min ball-milled alumina. The results of TG-DTA analyses showed that the reduction temperature and mechanism are dependent on the raw materials' ball milling time. Thermal analyses revealed that mechanical activation of raw materials decreases the NiO reduction temperature and increases the metallic Ni production.

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Thermoanalytical studies of the ceramic-metal composites obtained by gel-centrifugal casting

Cited by 7 publications

References 35 publications

Performance Characteristics of Hot-dip and Plasma Spray Aluminide Coated Nickel-Based Superalloy 718 under Cyclic Oxidation in Water Vapour

Performance Characteristics of Hot-dip and Plasma Spray Aluminide Coated Nickel-Based Superalloy 718 under Cyclic Oxidation in Water Vapour

Thermal and physical properties of ZrO2–AlO(OH) nanopowders synthesised by microwave hydrothermal method

Preparation of Porous Alumina/Nano-Nickel Composite by Gel Casting and Carbothermic Reduction

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