Mechanochemical activation of kaolin, pyrophyllite, and talcum and its effect on the synthesis of cordierite and properties of cordierite ceramics

Pavlikov, V. M.; Garmash, E. P.; Yurchenko, V. A.; Pleskach, I. V.; Oleinik, G. S.; Grigor’ev, O. M.

doi:10.1007/s11106-011-9271-7

Cited by 5 publications

(8 citation statements)

References 5 publications

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“…The influence of MgCO3 added (3,6, and 12 mass%) on DTA and TG curves of kaolinitic clay are also investigated ( Figure 2c). The curves indicate that increasing of adding MgCO3 form 6 to 12 mass% shifted the maximum of the peak position from 480 to 518 °C due to the residual bonds between the layers leads to the unequal location of OH groups [24]. The DTA and TG curves of KT2 (Figure 2a) indicate several phenomena: (i) A weak endothermic peak below 200 • C associated with a mass loss of 1.4% due to the evaporation of physically adsorbed water (dehydration);…”

Section: Raw Materials Characterizationsmentioning

confidence: 99%

“…The most recent study suggests that magnesium oxide had a greater influence on the sodium hexamethaphosphate-kaolin interactions, which have an anti-dispersant performance in the dispersions [23]. Therefore, the MgO is usually obtained by magnesite decomposition at high temperature [24]. In the present work, the effect of magnesite to the aqueous kaolinitic clay dispersion may cause a decrease or increase in the repulsive force interactions between the solid particles in the slurry, which directly affect the rheological parameters of the medium, as well as its pH.…”

Section: Introductionmentioning

confidence: 99%

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Kaolinite-Magnesite Based Ceramics. Part I: Surface Charge and Rheological Properties Optimization of the Suspensions for the Processing of Cordierite-Mullite Tapes

et al. 2019

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The present study aimed at investigating the influence of the concentration of sodium silicate and sodium hexametaphosphate on the dispersion of an aqueous kaolinitic clay slurry regarding further use for the tape casting process. The zeta potential of the kaolinitic clay slurry matched the requirements for tape casting. The addition of magnesite in the kaolinitic slurries tended to increase the zeta potential towards the required limit values. Despite this, the further addition of surfactants allowed improving the zeta potential in agreement with the tape casting conditions. Accordingly, the rheological behavior, under continuous and oscillatory flow conditions, of various mixtures of magnesite and a kaolinitic clay was studied. Regarding the pH and the zeta potential measurements, the E–F attraction prevailed at low pH value, and F–F or E–E attraction was predominant at high pH value. All slurries exhibited a shear thinning behavior, which was well-correlated by the Herschel–Bulkley model. It appeared that the best stability for the kaolinitic clay slurries was obtained while using 0.4 mass% and 1.2 mass% of sodium hexametaphosphate and sodium silicate, respectively. An increase in the magnesite concentration above 6 mass% led to a complex behavior with low cohesion energy due to the occurrence of soluble complexes.

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Section: Raw Materials Characterizationsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Kaolinite-Magnesite Based Ceramics. Part I: Surface Charge and Rheological Properties Optimization of the Suspensions for the Processing of Cordierite-Mullite Tapes

et al. 2019

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“…6 The mechanochemical activation performed on starting materials kaolin, pyrophyllite and talcum showed synthesis by solid-state reaction occurred at lower sintering temperature, also reported low thermal expansion. 7 Cordierite is not easily obtained by solid-state reactions from oxides, because of its refractory character. Synthetic powders exhibit heterogeneous surface properties and even chemical inhomogenity.…”

Section: Introductionmentioning

confidence: 99%

Processing and characterization of pure cordierite and zirconia-doped cordierite ceramic composite by precipitation technique

et al. 2015

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Pure cordierite and cordierite-ZrO 2 composite (5-20 wt%) ceramics for various stoichiometric compositions were synthesized from standard raw materials by a novel precipitation technique. The analytical techniques such as X-ray diffraction, simultaneous thermogravimetric and differential thermal analysis, Fourier transform infrared spectroscopy, scanning electron microscopy and bulk density were employed to evaluate the properties and microstructure. Results show that the ceramic composites consist of cordierite and zircon phases. The cordieritezirconia (20 wt%) increased the fracture toughness value from 3.38 to 3.94 MPa, which is mainly due to martensitic transformation present in zirconia. The flexural strength of composite was found to increase from 126.46 to 297.62 MPa. The thermal expansion coefficients of cordierite and cordierite-zirconia (20 wt%) were 4.08 × 10 −6 and 4.42 × 10 −6 • C −1 which may be due to the addition of zirconia.

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“…The influence of MgCO3 added (3, 6, and 12 %.mass) on DTA and TG curves of kaolinitic clay are also investigated ( Fig.2(c)). The curves indicates that increasing of adding MgCO3 form 6 to 12 mass% shifted the maximum of the peak position from 480 to 518 °C due to the residual bonds between the layers leads to the unequal location of OH groups [24]. The specific surface area (SSA) of both samples is reported in Table 1.…”

Section: Raw Materials Characterizationsmentioning

confidence: 99%

“…The most recent study, suggests that magnesium oxide had a greater influence on the sodium hexamethaphosphate-kaolin interactions, which have an anti-dispersant performances in the dispersions [23]. Therefore, the MgO is usually obtained by magnesite decomposition at high temperature [24]. In the present work, the effect of magnesite to the aqueous kaolinitic clay dispersion may cause a decrease or increase in the repulsive force interactions between the solid particles in slurry, which directly affect the rheological parameters of the medium, as well as its pH.…”

Section: Introductionmentioning

confidence: 99%

Kaolinite-Magnesite Based Ceramics. Part I: Surface Charge and Rheological Properties Optimization of the Suspensions for the Processing of Cordierite-mullite Tapes

Hammas¹,

Lecomte‐Nana

Azril³

et al. 2019

Preprint

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The present study aimed at investigating the influence of the concentration of sodium silicate and sodium hexametaphosphate on the dispersion of an aqueous kaolinitic clay slurry regarding further use for the tape casting process. The zeta potential of the kaolinitic clay slurry matched the requirements for tape casting. The addition of magnesite in the kaolinitic slurries tended to increase the zeta potential towards the required limit values. Despite, the further addition of surfactants allowed improving the zeta potential in agreement with the tape casting conditions. Accordingly, the rheological behavior, under continuous and oscillatory flow conditions, of various mixtures of magnesite and a kaolinitic clay was studied. Regarding the pH and the zeta potential measurements, the E–F attraction prevailed at low pH value, and F–F or E–E attraction was predominant at high pH value. All slurries exhibited a shear thinning behavior, which was well-correlated by Herschel–Bulkley model. It appeared that the best stability for the kaolinitic clay slurries was obtained while using 0.4 mass% and 1.2 mass% of sodium hexametaphosphate and sodium silicate respectively. An increase in the magnesite concentration above 6 mass% led to a complex behavior with low cohesion energy due to the occurrence of soluble complexes.

show abstract

Mechanochemical activation of kaolin, pyrophyllite, and talcum and its effect on the synthesis of cordierite and properties of cordierite ceramics

Cited by 5 publications

References 5 publications

Kaolinite-Magnesite Based Ceramics. Part I: Surface Charge and Rheological Properties Optimization of the Suspensions for the Processing of Cordierite-Mullite Tapes

Kaolinite-Magnesite Based Ceramics. Part I: Surface Charge and Rheological Properties Optimization of the Suspensions for the Processing of Cordierite-Mullite Tapes

Processing and characterization of pure cordierite and zirconia-doped cordierite ceramic composite by precipitation technique

Kaolinite-Magnesite Based Ceramics. Part I: Surface Charge and Rheological Properties Optimization of the Suspensions for the Processing of Cordierite-mullite Tapes

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