Overcoming technical barriers to revolutionize construction materials
Graphene particles tend to stick together, forming agglomerates
Combined dispersion with chemical surface functionalization
Uniform graphene distribution in matrix with particle size < 1 Ξm
High alkalinity of cement environment affects graphene stability
Development of special protective coatings and stabilizers
Dispersion stability over 48 hours in alkaline environment
Excessive or insufficient amounts can reduce effectiveness
Mathematical modeling and experimental verification
Optimal dosage of 0.03-0.05% by cement mass
Transition from laboratory to industrial volumes
Process automation and continuous production implementation
Productivity up to 500 kg/day while maintaining quality
High graphene price limits mass adoption
Using economical production methods and consumption optimization
60% cost reduction while maintaining effectiveness
Difficulty in assessing distribution uniformity in finished concrete
Development of rapid analysis methods and digital microscopy
Real-time quality control at all production stages
We continue research and development to make graphene technologies accessible for mass construction applications. Our goal is to create a new standard of quality and durability for concrete structures.