Some technological laws and properties for highly porous ceramic concretes

Pivinskii, Yu. E.; Dabizha, A. A.; Rutman, D. S.

doi:10.1007/bf01387396

Cited by 3 publications

(9 citation statements)

References 2 publications

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“…We note that when a coarse grained filler is used, at low values of CVf the strength values can be lower that those obtained at high CVf because of the formation of longer cracks [18].…”

Section: Structure Sintering and Strengthmentioning

confidence: 62%

“…In contrast to the melted or densely sintered fillers (of constant volume), there are mildly fired fillets that make it possible to increase the density and strength of the material [2,3,18].…”

Section: Structure Sintering and Strengthmentioning

confidence: 99%

“…The principles of reducing this undesirable phenomenon have been previously dealt with [18] on the example of granular materials containing a highly dispersed zircon binder.…”

Section: Yv =~Vc--yv Amentioning

confidence: 99%

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Sintering, structure, and properties of cast granular oxide refractories

Pivinskii¹

1985

Refractories

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“…We note that when a coarse grained filler is used, at low values of CVf the strength values can be lower that those obtained at high CVf because of the formation of longer cracks [18].…”

Section: Structure Sintering and Strengthmentioning

confidence: 62%

Section: Structure Sintering and Strengthmentioning

confidence: 99%

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Sintering, structure, and properties of cast granular oxide refractories

Pivinskii¹

1985

Refractories

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“…Moreover, in monomineral concrete (e.g., chamotte type) the filler grains (in contrast to those for VKVS) have a certain porosity -up to 10-20%. A special case is highly porous (heat-protective) concrete in which the filler has a porosity of up to 80-85%, [5,7].…”

mentioning

confidence: 99%

“…In all these cases the grain-size composition should be evaluated in terms of the true specific volumes, as shown in [5,7] for highly porous zircon concretes. Using the selected specific volumes and the equations in [6] we can calculate the mass consumption of the components.…”

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confidence: 99%

New population of refractory concretes: Grain size composition and volume factors

Pivinskii

1992

Refractories

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Previous articles in this series [1][2][3] showed that one of the outstanding characteristics of new refractory concretes -low-cement refractory concretes (NTsOB) or cast vibration thixotropic refractory bodies (NVTOM) -is their high density. Together with other factors the density is largely determined by the choice of the optimum grain-size composition.Selection Principles and Grain Distribution Curves. The choice of grain size in refractory concretes is governed by both production and service requirements. Bearing in mind the need for the minimum water requirement of the concrete mixture and the minimum porosity, the problem is one of obtaining the maximum packing density of the components. On the other hand, concrete mixtures should possess the necessary production properties (mobility and placement facility with the optimum vibration-compaction cycles, the absence of dilatancy preventing mixing and placement). Moreover, the choice of the optimum grain-size composition helps save cement -the most expensive component. In many applications of these concretes it is also true that excess cement impairs the properties of the concrete.The grain-size composition of refractory concretes to a marked degree determines their shrinkage during drying (setting) and in service, the thermal-shock resistance, and the relationship between temperature and strength. Uncompensated shrinkage [4,5] has a special influence on the properties.Questions of the choice and compilation of a grain-size composition for the ceramic concretes and low-cement refractory concretes have been examined in many papers [2,[4][5][6][7][8][9][10][11][12].The production of the new type of concretes usually involves a mixture of continuous composition which is more suitable technologically than discontinuous mixtures. The packing effectiveness can be improved by using equations to determine the best relationship between the contents of the various fractions and the maximum grain size in the mixture dma xIn particular, in several projects with NTsOB the grain composition was chosen taking account of the maximum packing density curve according to the Furnas equation [13][14][15][16][17]. As an example, Fig. i, using data in [13][14][15], presents the optimum curves for mixtures. It follows from curve 6 that for a concrete with dma x = 4.8 mm the content of particles <74 Dm should be 37.6%, and <0.5 ~m 4%. With an increase in dma x there is a proportional increase in the median diameter d m of the mixture, and also the polydispersion factor Kp [5]. Thus, when dma x equals 4.8, 1.2 and 0.3 mm, then Kp = Ks0/K20 is 160, 84, and 50 respectively. In accordance with this, with an increase in dma x for concrete with dense or porefree filler, there is a reduction in the porosity of the concretes. Other "ideal" grain-size distributions curves exist, and are analyzed in [5,18].Analysis of grain distributions of ceramic concretes, e.g., in [19,20], shows that they are close to the curves shown in Fig. i. Thus, ceramic concretes based on high-colloid (VKVS) mullite an...

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