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- Company Profile
- Environmentally Friendly Carbon Bonded Alumosilicate Refractories
- Properties an processing of shaped alumosilicate-carbon composities for application in shaft furnaces
- Analyse der Hochtemperaturkorrosion
- Cement-free spinel-based refractory materials
- Evaluation of a carbon containing model-granules-system based on loomy clay raw materials
- Novel ailumosilicate-carbon composites for application in shaft furnaces
- Reaction Studies in the Alumina-Magnesia-System with Focuson High-temperature Castables
- Untersuchungen zur Abbindetechnik selbstfließender Feuerbetone unter Anwendung eines Ultraschallmeßsystems
- The impact of appropriate mixing treatment on the installation properties of unshaped refractory products
- Design and development of alumosilicate-carbon composites for application in shaft furnaces
- Processing and development of carbon containing aluminosilicate composite materials
- Setting velocity of refractory casta bles in terms of varying 1 cement and disperging agents, derived by means of measurements of electrical conductivity and sonic velocity
- Corellation between solidification kinetic and strength development of high-dispersed LCC refractory castable systems at ambient temperature
- A contribution to the characterization of the "Eisenberger Klebsand" so called "Luting Sand" as an economic resource and a sustainable raw material for refractories
- Hardening kinetics of refractory castables in terms of varying cement and disperging agens with reference to the expected drying behaviors
