Results 191 to 200 of about 596 (233)
Some of the next articles are maybe not open access.
Calcium Aluminate Cement and Refractory Castable
Transactions of the Indian Ceramic Society, 1993Monocalcium aluminate and calcium dialuminate were prepared by heating different mixes of CaO and Al2O3, at 1400° and 1600°C respectively, evidence of which was found by X-ray diffraction study. Castables were made from the mixes of CA and CA2 in specific proportions, hydrated by keeping immersed in water and subsequently tested for strength.Hydrated ...
V. K. Singh, M. M. Ali, U. K. Mandal
openaire +1 more source
Permeability of Refractory Castables at High Temperatures
Journal of the American Ceramic Society, 2001Temperature is an important factor affectng the permeation of fluids in refractory castables. Because of experimental difficulties, however, permeability parameters are usually obtained at room temperature and then extrapolated to the temperature of interest, with no concern regarding porous structure modification (thermal expansion, etc.).
Murilo D. M. Innocentini +3 more
openaire +1 more source
Vacuum-Cast Refractory Castables
Journal of the Structural Division, 1964The compressive and modulus of rupture strength data for 2,400 F. to 3,400 F. commercial brands of castables and for 1 to 4 and 1 to 6 refractory concretes were investigated. The refractory concrete test specimens were prepared from the same batch of lumnite-lelite and lumnite-calcined flint clay materials.
openaire +1 more source
Nanotechnology in Refractory Castables — An Overview
Interceram - International Ceramic Review, 2018In recent times, nanotechnology has gained significant attention in the field of refractory research. As the unshaped refractory, especially the castable, is becoming of prime importance in refractory research, a good amount of work is going on globally to study the effect of nanotechnology on castables.
openaire +1 more source
Refractory Castables: Preparation and Some Properties
Journal of the American Ceramic Society, 1950Refractory castables in this investigation contained (a) aggregate made from unused high‐duty fire‐clay brick or calcined Kentucky flint clay and ( b ) domestic or imported high‐alumina hydraulic cement. The bulk densities were determined for different mixtures of grog passing through (
R. A. HEINDL, Z. A. POST
openaire +1 more source
Very High Solids Castable Refractories
1994Refractory shapes are conventionally produced from powder-water blends using a large variety of refractory ceramic compositions at many levels of solids loadings. Pure fine grained A12O3 may be slip cast at nearly 60 volume % solids; plastic fireclay may be cast at nearly 50 volume % solids; and some vibratory cast mixes may contain as much as 95 ...
James E. Funk, Dennis R. Dinger
openaire +1 more source
Phase composition of bauxite-based refractory castables
Ceramics International, 2011Abstract The bauxite-based refractory castables are composed of 90 wt.% well-graded (coarse, medium, and fine) bauxite aggregate, 10 wt.% binding matrix and adequate amount of distilled water. The binder mixture was calcium aluminate cement (CAC) containing 80% alumina and magnesium-aluminate spinel (MA-spinel) or mullite either preformed or obtained
Morsy M. Abou-Sekkina +3 more
openaire +1 more source
Effect of Hydrothermal Environments on the Erosion of Castable Refractories
Journal of Engineering Materials and Technology, 1977Hydrothermal environments are expected to adversely affect the erosive resistance of castable refractories intended for use in high wear areas of coal gasification plants. The erosive wear behavior of two grades of refractories proposed for such use was studied at room temperature after exposure of the refractories to high-pressure steam.
S. M. Wiederhorn +3 more
openaire +1 more source
Damage evaluation of two alumina refractory castables
Journal of the European Ceramic Society, 2009Abstract The accumulation of damage by thermal treatment and its development under uniaxial loading–unloading cycles performed at room temperature has been evaluated for two alumina based refractory castables; an ultra low cement content bauxite material (Bau-ULCC) and a low cement content andalusite material (And-LCC).
Kakroudi, M.G. +3 more
openaire +2 more sources
Selection of binders for in situ spinel refractory castables
Journal of the European Ceramic Society, 2009Abstract The expansive behavior of alumina–magnesia refractory castables is usually associated with in situ spinel formation. Nevertheless, when bonded with calcium aluminate cement (CAC), this class of materials can present additional expansion reactions due to CA 2 and CA 6 formation.
M.A.L. Braulio +2 more
openaire +1 more source