All Stories

  1. Green Concrete
  2. Structure formation and optimization of compositions of decorative alkali-activated slag cements
  3. The role of kaolinite clay in the evolution of the structure and properties of slag-alkali cements
  4. АДГЕЗІЙНІ ТА ТЕХНОЛОГІЧНІ ВЛАСТИВОСТІ РОЗЧИНІВ НА ОСНОВІ ШЛАКОЛУЖНИХ ДЕКОРАТИВНИХ ЦЕМЕНТІВ
  5. PERFORMANCE CHARACTERISTICS OF SLAG-ALKALI DECORATIVE CEMENTS AND MORTAR
  6. OBTAINING DECORATIVE ALKALINE-ACTIVATED CEMENT BY USING SLAGS WITH A HIGH CONTENT OF IRON OXIDE
  7. Mitigation of Corrosion Initiated by Cl− and SO42−-ions in Blast Furnace Cement Concrete Mixed with Sea Water
  8. Comparison of influence of surfactants on thermokinetic characteristics of alkali-activated slag cement
  9. Advances in Geopolymer-Zeolite Composites - Synthesis and Characterization
  10. COATING FOR PROTECTION OF CONCRETE FROM SULFATES
  11. Calorimetric Studies of Alkali-Activated Blast-Furnace Slag Cements at Early Hydration Processes in the Temperature Range of 20–80 °C
  12. Complex Shrinkage-Reducing Additives for Alkali Activated Slag Cement Fine Concrete
  13. Influence of the chemical composition of blast-furnace slag on the whiteness of decorative slag-alkaline cements
  14. Restriction of Cl- and SO4 2- Ions Transport in Alkali Activated Slag Cement Concrete in Seawater
  15. The Mechanism of Alkali-silica Reaction in Alkali Activated Slag Cement Concretes Using Active Aggregates and its Control by Al-ion Based Admixtures
  16. The effects of nano- and micro-sized additives on 3D printable cementitious and alkali-activated composites: a review
  17. Prevention of steel reinforcement corrosion in alkali-activated slag cement concrete mixed with seawater
  18. Influence of Type of Alkaline Activator on Durability of Alkali Activated Concrete Using Aggregates Capable to Alkali-Silica Reaction
  19. Compressive Strength of Concrete
  20. The Influence of Interfacial Transition Zone on Strength of Alkali-Activated Concrete
  21. The influence of porosity on radon emanation in alkali-activated mortars containing high volume bauxite residue
  22. Determining the effect of the composition of an aluminosilicate binder on the rheotechnological properties of adhesives for wood
  23. Development of solutions concerning regulation of proper deformations in alkali-activated cements
  24. Study on Physico-Mechanical Properties of the Modified Alkaline Aluminosilicate Adhesive-Bonded Timber Elements
  25. The Effect of Nanosilica on the Early Strength of Alkali-Activated Portland Composite Cements
  26. Efficiency of the Alkali-Activated Cement Concretes for Sea Construction
  27. The Influence of Complex Additive on Strength and Proper Deformations of Alkali-Activated Slag Cements
  28. Alkaline Aluminosilicate Binder-Based Adhesives with Increased Fire Resistance for Structural Timber Elements
  29. Influence of the CaO-containing modifiers on the properties of alkaline alyumosilicate binders
  30. Effect of AlF3 production waste on the processes of hydration and hardening of the alkali-activated Portland cement with sodium silicate hydrate
  31. MANAGING THE DECORATIVE PROPERTIES OF ALKALINE CEMENTS
  32. ALKALI ACTIVATED PORTLAND CEMENT WITH REGULATED PROPER DEFORMATIONS AS A BASE FOR ANCHORING GROUTS
  33. Alkali-Sulfate Activated Blended Portland Cements
  34. Nano-Structured Alkaline Aluminosilicate Binder by Carbonate Mineral Addition
  35. A comparative study on the influence of metakaolin and kaolin additives on properties and structure of the alkali­activated slag cement and concrete
  36. Alkaline Aluminosilicate Binder for Gluing Wood Board Materials
  37. Utilization of Industrial Waste Water Treatment Residues in Alkali Activated Cement and Concretes
  38. Radioactivity and Pb and Ni immobilization in SCM-bearing alkali-activated matrices
  39. Geocement immobilization of radioactive waste ion-exchange resins
  40. Geocement solidification technology for radioactive boron-containing liquid wastes
  41. Development of alkali activated cements and concrete mixture design with high volumes of red mud
  42. The Influence of Cavitation Treatment on Nano Structuring of Alkali Aluminosilicate Binder for Intumescent Coatings
  43. Development of mixture design of heat resistant alkali-activated aluminosilicate binder-based adhesives
  44. Analysis of plasticizer effectiveness during alkaline cement structure formation
  45. Radiological characterization and evaluation of high volume bauxite residue alkali activated concretes
  46. The Development of Alkali-activated Cement Mixtures for Fast Rehabilitation and Strengthening of Concrete Structures
  47. From NORM by-products to building materials
  48. From raw materials to NORM by-products
  49. Effect of thickness of the intumescent alkali aluminosilicate coating on temperature distribution in reinforced concrete
  50. Influence of the ratio of oxides and temperature on the structure formation of alkaline hydro-aluminosilicates
  51. Determination of the effect of fillers on the intumescent ability of the organic-inorganic coatings of building constructions
  52. Efficiency of alkali activated hybrid cements for immobilization of low-level radioactive anion-exchange resins
  53. High-Performance Alkali-Activated Cement Concretes for Marine Engineering Applications
  54. Sulfate Resistance of Alkali Activated Cements
  55. Applicability of alkali-activated cement for immobilization of low-level radioactive waste in ion-exchange resins
  56. Heat-Reflecting Geocement Based Coatings Containing Perlite for Fire Protection of Timber
  57. Influence of Temperature on Structure Formation Processes Geocements for Rehabilitation of Concrete
  58. Mix Design of Hybrid High-Volume Fly Ash Alkali Activated Cement
  59. High Strength Alkali Activated Slag Cements with Controlled Setting Times and Early Strength Gain
  60. Atmospheric Corrosion Protection of Metallic Structures Using Geocements-Based Coatings
  61. Role of Metakaolin on Lowering pH of the Alkali Activated Cement Concrete in Barrier Application
  62. The Influence of Cavitation Treatment on Amorphization of Kaolinite in the Dispersion of the “Kaolin—Na2O · nSiO2 · mH2O—NaOH—H2O” Composition
  63. Achieving a heat resistance of cellular concrete based on alkali activated fly ash cements
  64. A review on alkaline activation: new analytical perspectives
  65. Mineralogical Aspects of Durable Geocement Matrix Formation - Role of Alkali
  66. Geocement-Based Coatings for Repair and Protection of Concrete Subjected to Exposure to Ammonium Sulfate
  67. Shrinkage-Compensating Alkali Activated Slag Cement Mortars for Crack Repair and Joint Grouting in Concretes
  68. Perlite Concrete Based on Alkali Activated Cements
  69. Decorative Multi-Component Alkali Activated Cements for Restoration and Finishing Works
  70. Design of Low Carbon Footprint Alkali Activated Slag Cement Concretes for Marine Engineering Application in China
  71. Modeling a Thermo-Stressed State of the Cast-in-Situ Low Carbon Footprint Alkali Activated Slag Cement Concrete Hardened under Hot Environment
  72. Mechanism of preventing the alkali–aggregate reaction in alkali activated cement concretes
  73. Use of Thermal Insulating Perlite Composite Materials Based on Geocement to Protect Technological Equipment
  74. New Thermal Insulating Material Based on Geocement
  75. Demonstration Projects and Applications in Building and Civil Infrastructure
  76. Other Potential Applications for Alkali-Activated Materials
  77. Durability and Testing – Degradation via Mass Transport
  78. Historical Aspects and Overview
  79. Binder Chemistry – High-Calcium Alkali-Activated Materials
  80. AAM Concretes: Standards for Mix Design/Formulation and Early-Age Properties
  81. Protection of Timber from Combustion and Burning Using Alkaline Aluminosilicate-Based Coatings
  82. Physical and Chemical Properties of Adhesives Based on Geocement for Restoration and Rehabilitation of Building Materials
  83. Aluminosilicate coatings with enhanced heat- and corrosion resistance
  84. Status and Prospects of Research and Application of Alkali-Activated Materials
  85. Producing fire- and heat-resistant geopolymers
  86. Characterization of Aged Slag Concretes
  87. Performance of alkali-activated cements - a step towards true sustainable development
  88. Directed synthesis of alkaline aluminosilicate minerals in a geocement matrix
  89. Alkali-Activated Cements and Concretes
  90. Inorganic Geocement Matrix in Composite Materials
  91. Fly Ash Based Geocements: Genesis of Microstructure and Properties at Hydration-Dehydration Process
  92. The role of solid-phase basicity on heat evolution during hardening of cements
  93. Blast furnace slag-the ultimate binder
  94. Role of Alkali in Formation of Structure and Properties of a Ceramic Matrix
  95. SUPER-WORKABLE SLAG ALKALINE POLYMER CONCRETES
  96. Will Geopolymers Stand the Test of Time?
  97. Fireproof Coatings on the Basis of Alkaline Aluminum Silicate Systems