Application of Composite Binders and Carbon Nanomaterial for Aerated Concrete
Bitumen Emulsions for Road Construction Purposes, Modified by Fly Ash
Cements Of Alkaline Activation The Possibility Of Reducing The Energy Intensity Of Building Composites
Change in the Specific Electrical Resistance of Conductive Concrete During the Hardening Process
Changing the Technological Properties and Strength Characteristics of Highly Mobile Concrete by Introducing a Complex Modifier
Complex Mineral Additives for the Modification of Calcium Sulphate Based Materials
Dry Building Mixtures for Floor Coverings Using Nanodispersted Additives
Effect of Sucrose Occlusion by Products of Thermolysis of Hydrate Phases of Portland Cement
Efficiency of Modification of a Gypsum Binder with Carbon Nanotubes and Additives of Various Dispersity
Evaluation of Properties of Fuel Ashes as Components of Composite Materials
Express-Methods for Forecasting Cement Activity in the Plant Laboratory
Fine Basalt-Fibrous-Concrete with Nano-Silica
Gypsum Compositions Modified with Portland Cement and Metallurgic Dust
Gypsum Materials Modified with Complex Additive Based on Nanosilica
High Frequency Dielcometric Control over the Process of Cement Materials Hardening
Improving the Efficiency of Cement Binders with the Use of Silica-Containing Modifier
Influence of the Amount of Conductive Component on the Electrical Resistivity of Fine-Grained Electrically Conductive Concrete
Kinetics of Hydration and Properties of Cement with Metakaolin Addition
Modification of Cement and Concrete with Carbon Nanomaterials Obtained from Coal Cake
Modification of Cement Stone with Microadditives of Inorganic Salts

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