This book gathers the latest advances, innovations, and applications in the field of construction engineering, as presented by researchers and engineers at the International Conference Environmental and Construction Engineering: Reality and the Future, held in Belgorod, Russia, on May 18-19, 2021. It covers highly diverse topics, including industrial and civil construction, building materials; environmental engineering and sustainability; machines, aggregates and processes in construction. The contributions, which were selected by means of a rigorous international peer-review process,…mehr
This book gathers the latest advances, innovations, and applications in the field of construction engineering, as presented by researchers and engineers at the International Conference Environmental and Construction Engineering: Reality and the Future, held in Belgorod, Russia, on May 18-19, 2021. It covers highly diverse topics, including industrial and civil construction, building materials; environmental engineering and sustainability; machines, aggregates and processes in construction. The contributions, which were selected by means of a rigorous international peer-review process, highlight numerous exciting ideas that will spur novel research directions and foster multidisciplinary collaborations.
Chapter 1: Diffraction of Shock Waves into Frame Buildings.- Chapter 2: Improving the Efficiency of Silicate Materials Through the Use of Lime-Sand-Clay Binder.- Chapter 3: Separation of Oil-Water Emulsion Using Polysulfonamide Membranes Treated by Air Plasma.- Chapter 4: Rheological Properties of Molding Mixes on Composite Gypsum Binders for 3D-Additive Technologies of Low-Height Monolithic Construction.- Chapter 5: Substantiation of the Type of Machining of a Flat Metal-Metal-Polymer Surface Considering the Provision of the Required Roughness of the Part.- Chapter 6: Elastic-Plastic Model of Concrete Damage and its Main Design Parameters.- Chapter 7: Experimental Investigation on Strength Characteristics of Concrete Wall Colored Stones.- Chapter 8: Regulation of the Surface Microrelief of Titanium Hydride by Solutions of Sulfuric Acid Salts.- Chapter 9: Sodium Alginate Application in Self-Healing Technology for Asphalt Concrete.- Chapter 10: The Optimization of the Grinding Process of the Closing Joint of the Combined Forming Parts of the Mold.
Chapter 1: Diffraction of Shock Waves into Frame Buildings.- Chapter 2: Improving the Efficiency of Silicate Materials Through the Use of Lime-Sand-Clay Binder.- Chapter 3: Separation of Oil-Water Emulsion Using Polysulfonamide Membranes Treated by Air Plasma.- Chapter 4: Rheological Properties of Molding Mixes on Composite Gypsum Binders for 3D-Additive Technologies of Low-Height Monolithic Construction.- Chapter 5: Substantiation of the Type of Machining of a Flat Metal-Metal-Polymer Surface Considering the Provision of the Required Roughness of the Part.- Chapter 6: Elastic-Plastic Model of Concrete Damage and its Main Design Parameters.- Chapter 7: Experimental Investigation on Strength Characteristics of Concrete Wall Colored Stones.- Chapter 8: Regulation of the Surface Microrelief of Titanium Hydride by Solutions of Sulfuric Acid Salts.- Chapter 9: Sodium Alginate Application in Self-Healing Technology for Asphalt Concrete.- Chapter 10: The Optimization of the Grinding Process of the Closing Joint of the Combined Forming Parts of the Mold.
Chapter 1: Diffraction of Shock Waves into Frame Buildings.- Chapter 2: Improving the Efficiency of Silicate Materials Through the Use of Lime-Sand-Clay Binder.- Chapter 3: Separation of Oil-Water Emulsion Using Polysulfonamide Membranes Treated by Air Plasma.- Chapter 4: Rheological Properties of Molding Mixes on Composite Gypsum Binders for 3D-Additive Technologies of Low-Height Monolithic Construction.- Chapter 5: Substantiation of the Type of Machining of a Flat Metal-Metal-Polymer Surface Considering the Provision of the Required Roughness of the Part.- Chapter 6: Elastic-Plastic Model of Concrete Damage and its Main Design Parameters.- Chapter 7: Experimental Investigation on Strength Characteristics of Concrete Wall Colored Stones.- Chapter 8: Regulation of the Surface Microrelief of Titanium Hydride by Solutions of Sulfuric Acid Salts.- Chapter 9: Sodium Alginate Application in Self-Healing Technology for Asphalt Concrete.- Chapter 10: The Optimization of the Grinding Process of the Closing Joint of the Combined Forming Parts of the Mold.
Chapter 1: Diffraction of Shock Waves into Frame Buildings.- Chapter 2: Improving the Efficiency of Silicate Materials Through the Use of Lime-Sand-Clay Binder.- Chapter 3: Separation of Oil-Water Emulsion Using Polysulfonamide Membranes Treated by Air Plasma.- Chapter 4: Rheological Properties of Molding Mixes on Composite Gypsum Binders for 3D-Additive Technologies of Low-Height Monolithic Construction.- Chapter 5: Substantiation of the Type of Machining of a Flat Metal-Metal-Polymer Surface Considering the Provision of the Required Roughness of the Part.- Chapter 6: Elastic-Plastic Model of Concrete Damage and its Main Design Parameters.- Chapter 7: Experimental Investigation on Strength Characteristics of Concrete Wall Colored Stones.- Chapter 8: Regulation of the Surface Microrelief of Titanium Hydride by Solutions of Sulfuric Acid Salts.- Chapter 9: Sodium Alginate Application in Self-Healing Technology for Asphalt Concrete.- Chapter 10: The Optimization of the Grinding Process of the Closing Joint of the Combined Forming Parts of the Mold.
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